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Amebis:master
Amebis:v3.0.3.1 Amebis:v3.0.3 Amebis:v3.0.3-rc1 Amebis:v3.1.0 Amebis:WX_3_0_2 Amebis:v3.0.2 Amebis:MAC_BEFORE_OLD_COCOA_REMOVAL Amebis:WX_3_0_1 Amebis:v3.0.1 Amebis:WX_3_0_0 Amebis:v3.0.0 Amebis:WX_3_0_0-rc2 Amebis:v3.0.0-rc2 Amebis:WX_3_0_0-rc1 Amebis:v3.0.0-rc1 Amebis:WX_2_9_5 Amebis:v2.9.5 Amebis:WX_2_9_4 Amebis:v2.9.4 Amebis:WX_2_9_4-rc1 Amebis:v2.9.4-rc1 Amebis:WX_2_9_3 Amebis:v2.9.3 Amebis:WX_2_9_3-rc1 Amebis:v2.9.3-rc1 Amebis:WX_2_9_2 Amebis:v2.9.2 Amebis:WX_2_8_12 Amebis:v2.8.12 Amebis:WX_2_9_1 Amebis:v2.9.1 Amebis:WX_2_8_11 Amebis:v2.8.11 Amebis:WX_2_8_11@64147 Amebis:WX_2_9_0 Amebis:v2.9.0 Amebis:WX_2_8_10 Amebis:v2.8.10 Amebis:WX_2_8_9 Amebis:v2.8.9 Amebis:WX_2_8_8 Amebis:v2.8.8 Amebis:WX_2_8_7 Amebis:v2.8.7 Amebis:before_odbc_removal Amebis:WX_2_8_6 Amebis:v2.8.6 Amebis:WX_2_8_5 Amebis:v2.8.5 Amebis:wxPy-2.8.4.2 Amebis:WX_MAC_2_8_BEFORE_COCOA_MIXIN Amebis:wxPy_2_8_4_0 Amebis:WX_2_8_4 Amebis:v2.8.4 Amebis:WX_2_8_4-rc2 Amebis:v2.8.4-rc2 Amebis:MOTIF_BEFORE_COLOUR_FONT_INHERITANCE Amebis:wxPy_last_28_merge Amebis:wxPy_2_8_3_0 Amebis:wxPy_2_6_4_0 Amebis:WX_2_6_4 Amebis:v2.6.4 Amebis:WX_2_8_3 Amebis:v2.8.3 Amebis:WX_2_8_2 Amebis:v2.8.2 Amebis:WX_2_8_2rc1 Amebis:v2.8.2-rc1 Amebis:wxPy_2_8_1_1 Amebis:WX_2_8_1 Amebis:v2.8.1 Amebis:wxPy_2_8_1_0 Amebis:wxPy_2_8_0_2 Amebis:wxPy_2_8_0_1 Amebis:WX_2_8_0 Amebis:v2.8.0 Amebis:WX_2_8_0_rc3 Amebis:v2.8.0-rc3 Amebis:WX_2_8_0_rc2 Amebis:v2.8.0-rc2 Amebis:WX_2_8_0_rc1 Amebis:v2.8.0-rc1 Amebis:wxPy_2_7_2_0 Amebis:WX_2_7_2 Amebis:v2.7.2 Amebis:wxPy_2_7_1_3 Amebis:wxPy_2_7_1_2 Amebis:wxPy_2_7_1_1 Amebis:WX_2_7_1 Amebis:v2.7.1 Amebis:SOC2006_RTL_END Amebis:GST_0_8_9 Amebis:SDL_1_2_11 Amebis:PKGCONF_0_20 Amebis:GTK_2_6_4 Amebis:GTK_1_2_10 Amebis:BKFILE_2006_08_10 Amebis:CPPUNIT_1_10_2 Amebis:ACARC_2006_07_16 Amebis:WX_2_7_0 Amebis:v2.7.0 Amebis:M_STABLE Amebis:wxPy_2_6_3_3 Amebis:DEBIAN_2_6_3_2 Amebis:agide Amebis:DEBIAN_2_4_5 Amebis:wxPy_2_6_3_2 Amebis:wxPy_2_6_3_0 Amebis:WX_2_6_3 Amebis:RELEASE Amebis:v2.6.3 Amebis:BEFORE_LANG_CXX Amebis:BEFORE_KO_CHANGES Amebis:wxPy_b4_virtualization_fix Amebis:BEFORE_GTK1_GTK_2_SPLIT Amebis:wxPy_2_6_2_1 Amebis:wxPy_last_2_6_merge_point Amebis:MAC_BEFORE_10_3_AND_ABOVE Amebis:before_gtk_scrolledwindow_refactoring Amebis:BEFORE_PRAGMA_REMOVAL Amebis:WX_2_6_2 Amebis:v2.6.2 Amebis:ZLIB_1_2_3 Amebis:MOTIF_BEFORE_JA_FONT_CHANGES Amebis:xrced-0_1_5-3 Amebis:wxPy_2_6_1_0 Amebis:WX_2_6_1 Amebis:v2.6.1 Amebis:WX_2_4_BEFORE_PRAGMA_REMOVAL Amebis:wxPy_2_6_0_1 Amebis:DEBIAN_2_4_3_1_SARGE_v_2_4_2_4 Amebis:DEBIAN_2_4_3_1 Amebis:WX_2_4_3 Amebis:v2.4.3 Amebis:wxPy_2_6_0_0 Amebis:WX_2_6_0 Amebis:v2.6.0 Amebis:wxPy_2_6_0_0_rc1 Amebis:wxPy_2_5_5_1 Amebis:WX_2_5_5 Amebis:v2.5.5 Amebis:b4_big_updates Amebis:wxPy_2_5_4_1 Amebis:WX_2_5_4 Amebis:v2.5.4 Amebis:MAC_BEFORE_CORE_GRAPHICS Amebis:BEFORE_DERIVING_FROM_STATIC_BOX Amebis:LIBTIFF_3_6_1 Amebis:DEBIAN_2_5_3_2 Amebis:wxPy_2_5_3_1 Amebis:ZLIB_1_2_2 Amebis:WX_2_5_3 Amebis:v2.5.3 Amebis:END_OF_THE_STONE_AGE Amebis:LIBPNG_1_2_7 Amebis:LIBPNG_1_2_6 Amebis:wxPy_2_5_2_8 Amebis:wxPy_2_5_2_7 Amebis:wxPy_2_5_2_5 Amebis:WX_2_4_2_5 Amebis:v2.4.2.5 Amebis:WX_2_5_2 Amebis:v2.5.2 Amebis:ZLIB_1_2_1 Amebis:ZLIB_1_1_4 Amebis:wxPy_2_5_1_5 Amebis:wxPy_2_5_1_4 Amebis:BEFORE_WIN16_REMOVAL Amebis:wxPy_2_5_1_2 Amebis:wxPy_2_5_1_1 Amebis:WX_2_5_1 Amebis:v2.5.1 Amebis:scintilla-extrafont Amebis:scintilla-b4-extrafont Amebis:TCL_8_4_5 Amebis:wxPy_2_4_2_4 Amebis:Py-0-9-3 Amebis:WX_2_4_2 Amebis:v2.4.2 Amebis:MAC_BEFORE_PCMAC_CONV_REMOVAL Amebis:WX_2_5_0_1 Amebis:v2.5.0.1 Amebis:wxPy_p1 Amebis:wxPy_2_4_1_2 Amebis:WX_BEFORE_REMOVING_WXWIN_COMPATIBILITY_2_2 Amebis:EXPAT_1_95_6 Amebis:wxPy_2_4_merge_2 Amebis:BEFORE_INIT_REFACTORING Amebis:BEFORE_MULTIPLE_LIBS_CHANGE Amebis:WX_2_4_1 Amebis:v2.4.1 Amebis:WX_HTML_BEFORE_TEXT_SELECTION Amebis:Py_0_9_1 Amebis:before_templates Amebis:wxPy_2_4_merge_1 Amebis:wxPy_2_4_0_7 Amebis:wxPy_2_4_0_6 Amebis:wxPy_2_4_0_5 Amebis:wxPy_2_4_0_4 Amebis:wxPy_2_4_0_2 Amebis:BEFORE_CONVERTING_TRUEFALSE_TO_LOWERCASE Amebis:wxPy_2_4_0_1 Amebis:WX_2_4_0 Amebis:v2.4.0 Amebis:WX_2_4_0_CANDIDATE Amebis:v2.4.0-rc1 Amebis:wxPy_2_3_4_2 Amebis:wxPy_2_3_4_1 Amebis:wxPy_2_4_0 Amebis:WX_MAIN_AFTER_2_4_MERGE Amebis:WX_2_4_FIRST_MERGE Amebis:WX_MAIN_BEFORE_2_4_MERGE Amebis:WX_2_3_4 Amebis:v2.3.4 Amebis:DEBIAN_2_3_3_2 Amebis:wxPy_2_3_3_1 Amebis:WX_2_3_3 Amebis:v2.3.3 Amebis:wxPy_2_3_3_pre Amebis:LIBPNG_1_2_4 Amebis:INT32_TO_JPEG_INT32 Amebis:LIBPNG_1_0_3 Amebis:PRE_GTK_2_0 Amebis:wxPy_B4_UNICODE Amebis:WX_2_2_9 Amebis:v2.2.9 Amebis:wxPy_LAST_2_3_2 Amebis:wxPy_2_3_2_1 Amebis:AFTER_NEW_DYNLOADER Amebis:BEFORE_NEW_DYNLOADER Amebis:wxPy_B4_TSTATE_CHANGE Amebis:WX_2_3_2 Amebis:v2.3.2 Amebis:BEFORE_VOLUME_CHANGES Amebis:DEBIAN_2_2_8_1 Amebis:COPY_OBJECT Amebis:wxPy_2_3_2b7 Amebis:oglgdiptr Amebis:WX_2_2_8 Amebis:v2.2.8 Amebis:wxPy_2_3_2b6 Amebis:wxPy_2_3_2b5 Amebis:wxPy_2_3_2b4 Amebis:wxPy_2_3_2b1 Amebis:LAST_WITH_IFDEF_QT Amebis:modif Amebis:B4_MAC Amebis:WXGTK_OLD_FOCUS_CODE Amebis:ALPHA_3_8 Amebis:WX_2_3_1 Amebis:v2.3.1 Amebis:WX_MAIN_AFTER_UNIV_MERGE Amebis:WX_MAIN_BEFORE_UNIV_MERGE Amebis:WX_2_2_7 Amebis:v2.2.7 Amebis:wxPy_2_3_0 Amebis:b4_OOR_1 Amebis:b4_mousewheel Amebis:BEFORE_WIN_AUTODETECT Amebis:WXXML_BEFORE_EXPAT Amebis:MIMECODE_WITHOUT_KDE_GNOME Amebis:WX_2_2_6 Amebis:v2.2.6 Amebis:WX_2_2_5_1 Amebis:v2.2.5.1 Amebis:WX_2_2_5 Amebis:v2.2.5 Amebis:wxPy_2_3b1 Amebis:BEFORE_LINEWRAP_OPTIMIZE Amebis:BEFORE_LINE_WRAP Amebis:B4_LAST_MERGE Amebis:wxPy_2_2_2 Amebis:OLD_MOUSE_CODE Amebis:wxPy_OLD_BUILD Amebis:DEBIAN_2_2_2 Amebis:BEFORE_ON_PAINT_CHANGE Amebis:WX_2_2_1 Amebis:v2.2.1 Amebis:WX_MAIN_AFTER_2_2_SECOND_MERGE Amebis:WX_2_2_SECOND_MERGE Amebis:WX_MAIN_BEFORE_2_2_SECOND_MERGE Amebis:wxPy_2_2_0 Amebis:WX_MAIN_AFTER_2_2_MERGE Amebis:WX_2_2_LAST_MERGE Amebis:WX_2_2_FIRST_MERGE Amebis:WX_2_2_0 Amebis:v2.2.0 Amebis:wxPy_2_1_16 Amebis:WX_MAIN_BEFORE_2_2_MERGE Amebis:WX_2_1_16 Amebis:v2.1.16 Amebis:UNDO Amebis:WX_2_2_STABLE Amebis:WX_2_1_14 Amebis:v2.1.14 Amebis:WITH_OGL Amebis:wxGTK_2_1_13 Amebis:OLD_DATE_AND_TIME Amebis:wxGTK_2_1_11 Amebis:WX_2_1_11 Amebis:v2.1.11 Amebis:TESTED Amebis:BEFORE_LONG_INT_CHANGE Amebis:wxPy-2-1-5 Amebis:wxPy-2-1-4 Amebis:BEFORE_LIB_SPLIT Amebis:wxPython-2_1b3 Amebis:WXP_OLD_BUILD Amebis:wxWINDOWS_2_1_BETA_8 Amebis:MAKEFILES_WITHOUT_TMAKE Amebis:wxPython-2_1b1 Amebis:TOKENZR_ORIG Amebis:WXDLLEXPORTLOCAL Amebis:OLD_MAKEFILES Amebis:BC5_SNAPSHOT_LATEST Amebis:BEFORE_FONTCHANGE Amebis:OLD_HEADERS Amebis:WORKING_KBD_NAVIGATION Amebis:wxPython-0_5_4 Amebis:wxPython-0_5_3 Amebis:M_REFERENCE Amebis:OLD_WXLIST Amebis:PRE_REWRITE Amebis:NEW_CONFIGURE Amebis:OLD_CONFIGURE Amebis:LAST_GOOD Amebis:old_gui_defines Amebis:old_debug Amebis:wxGTK_0_12 Amebis:WXGTK_ONLY
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Amebis:master
Amebis:v3.0.3.1 Amebis:v3.0.3 Amebis:v3.0.3-rc1 Amebis:v3.1.0 Amebis:WX_3_0_2 Amebis:v3.0.2 Amebis:MAC_BEFORE_OLD_COCOA_REMOVAL Amebis:WX_3_0_1 Amebis:v3.0.1 Amebis:WX_3_0_0 Amebis:v3.0.0 Amebis:WX_3_0_0-rc2 Amebis:v3.0.0-rc2 Amebis:WX_3_0_0-rc1 Amebis:v3.0.0-rc1 Amebis:WX_2_9_5 Amebis:v2.9.5 Amebis:WX_2_9_4 Amebis:v2.9.4 Amebis:WX_2_9_4-rc1 Amebis:v2.9.4-rc1 Amebis:WX_2_9_3 Amebis:v2.9.3 Amebis:WX_2_9_3-rc1 Amebis:v2.9.3-rc1 Amebis:WX_2_9_2 Amebis:v2.9.2 Amebis:WX_2_8_12 Amebis:v2.8.12 Amebis:WX_2_9_1 Amebis:v2.9.1 Amebis:WX_2_8_11 Amebis:v2.8.11 Amebis:WX_2_8_11@64147 Amebis:WX_2_9_0 Amebis:v2.9.0 Amebis:WX_2_8_10 Amebis:v2.8.10 Amebis:WX_2_8_9 Amebis:v2.8.9 Amebis:WX_2_8_8 Amebis:v2.8.8 Amebis:WX_2_8_7 Amebis:v2.8.7 Amebis:before_odbc_removal Amebis:WX_2_8_6 Amebis:v2.8.6 Amebis:WX_2_8_5 Amebis:v2.8.5 Amebis:wxPy-2.8.4.2 Amebis:WX_MAC_2_8_BEFORE_COCOA_MIXIN Amebis:wxPy_2_8_4_0 Amebis:WX_2_8_4 Amebis:v2.8.4 Amebis:WX_2_8_4-rc2 Amebis:v2.8.4-rc2 Amebis:MOTIF_BEFORE_COLOUR_FONT_INHERITANCE Amebis:wxPy_last_28_merge Amebis:wxPy_2_8_3_0 Amebis:wxPy_2_6_4_0 Amebis:WX_2_6_4 Amebis:v2.6.4 Amebis:WX_2_8_3 Amebis:v2.8.3 Amebis:WX_2_8_2 Amebis:v2.8.2 Amebis:WX_2_8_2rc1 Amebis:v2.8.2-rc1 Amebis:wxPy_2_8_1_1 Amebis:WX_2_8_1 Amebis:v2.8.1 Amebis:wxPy_2_8_1_0 Amebis:wxPy_2_8_0_2 Amebis:wxPy_2_8_0_1 Amebis:WX_2_8_0 Amebis:v2.8.0 Amebis:WX_2_8_0_rc3 Amebis:v2.8.0-rc3 Amebis:WX_2_8_0_rc2 Amebis:v2.8.0-rc2 Amebis:WX_2_8_0_rc1 Amebis:v2.8.0-rc1 Amebis:wxPy_2_7_2_0 Amebis:WX_2_7_2 Amebis:v2.7.2 Amebis:wxPy_2_7_1_3 Amebis:wxPy_2_7_1_2 Amebis:wxPy_2_7_1_1 Amebis:WX_2_7_1 Amebis:v2.7.1 Amebis:SOC2006_RTL_END Amebis:GST_0_8_9 Amebis:SDL_1_2_11 Amebis:PKGCONF_0_20 Amebis:GTK_2_6_4 Amebis:GTK_1_2_10 Amebis:BKFILE_2006_08_10 Amebis:CPPUNIT_1_10_2 Amebis:ACARC_2006_07_16 Amebis:WX_2_7_0 Amebis:v2.7.0 Amebis:M_STABLE Amebis:wxPy_2_6_3_3 Amebis:DEBIAN_2_6_3_2 Amebis:agide Amebis:DEBIAN_2_4_5 Amebis:wxPy_2_6_3_2 Amebis:wxPy_2_6_3_0 Amebis:WX_2_6_3 Amebis:RELEASE Amebis:v2.6.3 Amebis:BEFORE_LANG_CXX Amebis:BEFORE_KO_CHANGES Amebis:wxPy_b4_virtualization_fix Amebis:BEFORE_GTK1_GTK_2_SPLIT Amebis:wxPy_2_6_2_1 Amebis:wxPy_last_2_6_merge_point Amebis:MAC_BEFORE_10_3_AND_ABOVE Amebis:before_gtk_scrolledwindow_refactoring Amebis:BEFORE_PRAGMA_REMOVAL Amebis:WX_2_6_2 Amebis:v2.6.2 Amebis:ZLIB_1_2_3 Amebis:MOTIF_BEFORE_JA_FONT_CHANGES Amebis:xrced-0_1_5-3 Amebis:wxPy_2_6_1_0 Amebis:WX_2_6_1 Amebis:v2.6.1 Amebis:WX_2_4_BEFORE_PRAGMA_REMOVAL Amebis:wxPy_2_6_0_1 Amebis:DEBIAN_2_4_3_1_SARGE_v_2_4_2_4 Amebis:DEBIAN_2_4_3_1 Amebis:WX_2_4_3 Amebis:v2.4.3 Amebis:wxPy_2_6_0_0 Amebis:WX_2_6_0 Amebis:v2.6.0 Amebis:wxPy_2_6_0_0_rc1 Amebis:wxPy_2_5_5_1 Amebis:WX_2_5_5 Amebis:v2.5.5 Amebis:b4_big_updates Amebis:wxPy_2_5_4_1 Amebis:WX_2_5_4 Amebis:v2.5.4 Amebis:MAC_BEFORE_CORE_GRAPHICS Amebis:BEFORE_DERIVING_FROM_STATIC_BOX Amebis:LIBTIFF_3_6_1 Amebis:DEBIAN_2_5_3_2 Amebis:wxPy_2_5_3_1 Amebis:ZLIB_1_2_2 Amebis:WX_2_5_3 Amebis:v2.5.3 Amebis:END_OF_THE_STONE_AGE Amebis:LIBPNG_1_2_7 Amebis:LIBPNG_1_2_6 Amebis:wxPy_2_5_2_8 Amebis:wxPy_2_5_2_7 Amebis:wxPy_2_5_2_5 Amebis:WX_2_4_2_5 Amebis:v2.4.2.5 Amebis:WX_2_5_2 Amebis:v2.5.2 Amebis:ZLIB_1_2_1 Amebis:ZLIB_1_1_4 Amebis:wxPy_2_5_1_5 Amebis:wxPy_2_5_1_4 Amebis:BEFORE_WIN16_REMOVAL Amebis:wxPy_2_5_1_2 Amebis:wxPy_2_5_1_1 Amebis:WX_2_5_1 Amebis:v2.5.1 Amebis:scintilla-extrafont Amebis:scintilla-b4-extrafont Amebis:TCL_8_4_5 Amebis:wxPy_2_4_2_4 Amebis:Py-0-9-3 Amebis:WX_2_4_2 Amebis:v2.4.2 Amebis:MAC_BEFORE_PCMAC_CONV_REMOVAL Amebis:WX_2_5_0_1 Amebis:v2.5.0.1 Amebis:wxPy_p1 Amebis:wxPy_2_4_1_2 Amebis:WX_BEFORE_REMOVING_WXWIN_COMPATIBILITY_2_2 Amebis:EXPAT_1_95_6 Amebis:wxPy_2_4_merge_2 Amebis:BEFORE_INIT_REFACTORING Amebis:BEFORE_MULTIPLE_LIBS_CHANGE Amebis:WX_2_4_1 Amebis:v2.4.1 Amebis:WX_HTML_BEFORE_TEXT_SELECTION Amebis:Py_0_9_1 Amebis:before_templates Amebis:wxPy_2_4_merge_1 Amebis:wxPy_2_4_0_7 Amebis:wxPy_2_4_0_6 Amebis:wxPy_2_4_0_5 Amebis:wxPy_2_4_0_4 Amebis:wxPy_2_4_0_2 Amebis:BEFORE_CONVERTING_TRUEFALSE_TO_LOWERCASE Amebis:wxPy_2_4_0_1 Amebis:WX_2_4_0 Amebis:v2.4.0 Amebis:WX_2_4_0_CANDIDATE Amebis:v2.4.0-rc1 Amebis:wxPy_2_3_4_2 Amebis:wxPy_2_3_4_1 Amebis:wxPy_2_4_0 Amebis:WX_MAIN_AFTER_2_4_MERGE Amebis:WX_2_4_FIRST_MERGE Amebis:WX_MAIN_BEFORE_2_4_MERGE Amebis:WX_2_3_4 Amebis:v2.3.4 Amebis:DEBIAN_2_3_3_2 Amebis:wxPy_2_3_3_1 Amebis:WX_2_3_3 Amebis:v2.3.3 Amebis:wxPy_2_3_3_pre Amebis:LIBPNG_1_2_4 Amebis:INT32_TO_JPEG_INT32 Amebis:LIBPNG_1_0_3 Amebis:PRE_GTK_2_0 Amebis:wxPy_B4_UNICODE Amebis:WX_2_2_9 Amebis:v2.2.9 Amebis:wxPy_LAST_2_3_2 Amebis:wxPy_2_3_2_1 Amebis:AFTER_NEW_DYNLOADER Amebis:BEFORE_NEW_DYNLOADER Amebis:wxPy_B4_TSTATE_CHANGE Amebis:WX_2_3_2 Amebis:v2.3.2 Amebis:BEFORE_VOLUME_CHANGES Amebis:DEBIAN_2_2_8_1 Amebis:COPY_OBJECT Amebis:wxPy_2_3_2b7 Amebis:oglgdiptr Amebis:WX_2_2_8 Amebis:v2.2.8 Amebis:wxPy_2_3_2b6 Amebis:wxPy_2_3_2b5 Amebis:wxPy_2_3_2b4 Amebis:wxPy_2_3_2b1 Amebis:LAST_WITH_IFDEF_QT Amebis:modif Amebis:B4_MAC Amebis:WXGTK_OLD_FOCUS_CODE Amebis:ALPHA_3_8 Amebis:WX_2_3_1 Amebis:v2.3.1 Amebis:WX_MAIN_AFTER_UNIV_MERGE Amebis:WX_MAIN_BEFORE_UNIV_MERGE Amebis:WX_2_2_7 Amebis:v2.2.7 Amebis:wxPy_2_3_0 Amebis:b4_OOR_1 Amebis:b4_mousewheel Amebis:BEFORE_WIN_AUTODETECT Amebis:WXXML_BEFORE_EXPAT Amebis:MIMECODE_WITHOUT_KDE_GNOME Amebis:WX_2_2_6 Amebis:v2.2.6 Amebis:WX_2_2_5_1 Amebis:v2.2.5.1 Amebis:WX_2_2_5 Amebis:v2.2.5 Amebis:wxPy_2_3b1 Amebis:BEFORE_LINEWRAP_OPTIMIZE Amebis:BEFORE_LINE_WRAP Amebis:B4_LAST_MERGE Amebis:wxPy_2_2_2 Amebis:OLD_MOUSE_CODE Amebis:wxPy_OLD_BUILD Amebis:DEBIAN_2_2_2 Amebis:BEFORE_ON_PAINT_CHANGE Amebis:WX_2_2_1 Amebis:v2.2.1 Amebis:WX_MAIN_AFTER_2_2_SECOND_MERGE Amebis:WX_2_2_SECOND_MERGE Amebis:WX_MAIN_BEFORE_2_2_SECOND_MERGE Amebis:wxPy_2_2_0 Amebis:WX_MAIN_AFTER_2_2_MERGE Amebis:WX_2_2_LAST_MERGE Amebis:WX_2_2_FIRST_MERGE Amebis:WX_2_2_0 Amebis:v2.2.0 Amebis:wxPy_2_1_16 Amebis:WX_MAIN_BEFORE_2_2_MERGE Amebis:WX_2_1_16 Amebis:v2.1.16 Amebis:UNDO Amebis:WX_2_2_STABLE 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1 Commits
b4_big_upd ... wxPython-2

Author SHA1 Message Date
Bryan Petty
c6440f0a90 This commit was manufactured by cvs2svn to create tag 
'wxPython-2_1b3'.

git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/tags/wxPython-2_1b3@3555 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
 1999-09-02 06:01:53 +00:00
348 changed files with 207538 additions and 6297 deletions
Expand all files Collapse all files

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utils/wxPython/.cvsignore Normal file
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*.py
*.pyc
*.pyc
*.pyd
*.pyd
*.pyo
*.pyo
*.zip
.cvsignore
.emacs.desktop
__init__.py
__init__.py
__init__.pyc
__init__.pyc
__init__.pyo
__init__.pyo
build.local
cmndlgs.py
cmndlgs.py
cmndlgs.pyc
cmndlgs.pyc
cmndlgs.pyo
cmndlgs.pyo
controls.py
controls.py
controls.pyc
controls.pyc
controls.pyo
controls.pyo
controls2.py
controls2.py
controls2.pyc
controls2.pyc
controls2.pyo
controls2.pyo
docs
events.py
events.py
events.pyc
events.pyc
events.pyo
events.pyo
filelist
frames.py
frames.py
frames.pyc
frames.pyc
frames.pyo
frames.pyo
gdi.py
gdi.py
gdi.pyc
gdi.pyc
gdi.pyo
gdi.pyo
glcanvas.py
glcanvas.pyc
glcanvasc.ilk
glcanvasc.pyd
image.py
image.pyc
mdi.py
mdi.py
mdi.pyc
mdi.pyc
mdi.pyo
mdi.pyo
misc.py
misc.py
misc.pyc
misc.pyc
misc.pyo
misc.pyo
printfw.py
stattool.py
stattool.py
stattool.pyc
stattool.pyc
stattool.pyo
stattool.pyo
utils.py
utils.py
utils.pyc
utils.pyc
utils.pyo
utilsc.ilk
utilsc.pyd
windows.py
windows.py
windows.pyc
windows.pyc
windows.pyo
windows.pyo
windows2.py
windows2.py
windows2.pyc
windows2.pyc
windows2.pyo
windows2.pyo
windows3.py
windows3.pyc
windows3.pyo
wx.py
wx.py
wx.pyc
wx.pyc
wx.pyo
wxPython.doc
wxc.ilk
wxc.pdb
wxc.pyd
wxp.py
wxp.pyc
wxp.pyo
wxpc.ilk
wxpc.pdb
wxpc.pyd

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utils/wxPython/README.txt Normal file
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wxPython README
---------------
Welcome to the wonderful world of wxPython!
Once you have installed the wxPython extension module, you can try it
out by going to the [install dir]\wxPython\demo directory and typing:
python demo.py
There are also some other sample files there for you to play with and
learn from.
If you selected to install the documentation then point your browser
to [install dir]\wxPython\docs\index.htm and you will then be looking
at the docs for wxWindows. For the most part you can use the C++ docs
as most classes and methods are used identically. Where there are
differences they are documented with a "wxPython Note."
On Win32 systems the binary self-installer creates a program group on
the Start Menu that contains a link to running the demo and a link to
the help file. To help you save disk space I'm now using Microsoft's
HTML Help format. If your system doesn't know what to do with the help
file, you can install the HTML Help Viewer as part of IE 4+, NT
Service Pack 4+, or the HTML Workshop at
http://msdn.microsoft.com/workshop/author/htmlhelp/download.asp.
Getting Help
------------
Since wxPython is a blending of multiple technologies, help comes from
multiple sources. See the http://alldunn.com/wxPython for details on
various sources of help, but probably the best source is the
wxPython-users mail list. You can view the archive or subscribe by
going to
http://starship.python.net/mailman/listinfo/wxpython-users
Or you can send mail directly to the list using this address:
wxpython-users@starship.python.net
----------------------------------------------------------------------
What's new in 2.1b3
--------------------
This release is syncronized with release 2.1 snapshot 9 of wxWindows.
Switched to using SWIG from CVS (see http://swig.cs.uchicago.edu/cvs.html)
for some of the new features and such. Also they have encorporated my
patches so there is really no reason to stick with the current (very
old) release... This version of SWIG gives the following new
features:
1. Keyword arguments. You no longer have to specify all the
parameters with defaults to a method just to specify a
non-default value on the end. You can now do this instead:
win = wxWindow(parent, -1, style = mystyle)
2. There is now an an equivalence between Python's None and C++'s
NULL. This means that any methods that might return NULL will
now return None and you can use none where wxWindows might be
expecting NULL. This makes things much more snake-ish.
There is a new build system based on a new Python program instead of
raw makefiles. Now wxPython builds are virtually the same on MSW or
Unix systems. See the end of this file for new build instructions and
see distrib/build.py for more details.
wxDC.Bilt now includes the useMask parameter, and has been split into
two different versions. wxDC.BlitXY is like what was there before and
takes raw coordinants and sizes, and the new wxDC.Blit is for the new
interface using wxPoints and a wxSize.
What's new in 2.1b2
--------------------
Added the missing wxWindow.GetUpdateRegion() method.
Made a new change in SWIG (update your patches everybody) that
provides a fix for global shadow objects that get an exception in
their __del__ when their extension module has already been deleted.
It was only a 1 line change in .../SWIG/Modules/pycpp.cxx at about
line 496 if you want to do it by hand.
It is now possible to run through MainLoop more than once in any one
process. The cleanup that used to happen as MainLoop completed (and
prevented it from running again) has been delayed until the wxc module
is being unloaded by Python.
I fixed a bunch of stuff in the C++ version of wxGrid so it wouldn't
make wxPython look bad.
wxWindow.PopupMenu() now takes a wxPoint instead of x,y. Added
wxWindow.PopupMenuXY to be consistent with some other methods.
Added wxGrid.SetEditInPlace and wxGrid.GetEditInPlace.
You can now provide your own app.MainLoop method. See
wxPython/demo/demoMainLoop.py for an example and some explaination.
Got the in-place-edit for the wxTreeCtrl fixed and added some demo
code to show how to use it.
Put the wxIcon constructor back in for GTK as it now has one that
matches MSW's.
Added wxGrid.GetCells
Added wxSystemSettings static methods as functions with names like
wxSystemSettings_GetSystemColour.
Removed wxPyMenu since using menu callbacks have been depreciated in
wxWindows. Use wxMenu and events instead.
Added alternate wxBitmap constructor (for MSW only) as
wxBitmapFromData(data, type, width, height, depth = 1)
Added a helper function named wxPyTypeCast that can convert shadow
objects of one type into shadow objects of another type. (Like doing
a down-cast.) See the implementation in wx.py for some docs.
Fixed wxImage GetData and SetData to properly use String objects for
data transfer.
Added access methods to wxGridEvent.
New Makefile/Setup files supporting multiple dynamic extension modules
for unix systems.
Fixes for the wxGLCanvas demo to work around a strange bug in gtk.
SWIG support routines now compiled separately instead of being bundled
in wx.cpp.
What's new in 2.1b1
--------------------
Fixed wxComboBox.SetSelection so that it actually sets the selected
item. (Actually just removed it from wxPython and let it default to
wxChoice.SetSelection which was already doing the right thing.)
Added the Printing Framework.
Switched back to using the wxWindows DLL for the pre-built Win32
version. The problem was needing to reinitialize static class info
data after loading each extension module.
Lots of little tweaks and additions to reflect changes to various
wxWindows classes.
Fixed a bug with attaching objects to tree items. Actually was a
symptom of a larger problem with not obtaining the interpreter lock
when doing any Py_DECREFs.
wxSizer and friends. Sizers are layout tools that manage a colection
of windows and sizers. Different types of sizers apply different
types of layout algorithms. You saw it here first! These classes are
not even in the wxWindows C++ library yet!
What's new in 2.0b9
-------------------
Bug fix for ListCtrl in test4.py (Was a missing file... DSM!)
Bug fix for occassional GPF on Win32 systems upon termination of a
wxPython application.
Added wxListBox.GetSelections returning selections as a Tuple.
Added a wxTreeItemData that is able to hold any Python object and be
associated with items in a wxTreeCtrl. Added test pytree.py to show
this feature off.
Added wxSafeYield function.
OpenGL Canvas can be optionally compiled in to wxPython.
Awesome new Demo Framework for showing off wxPython and for learning
how it all works.
The pre-built Win32 version is no longer distributing the wxWindows
DLL. It is statically linked with the wxWindows library instead.
Added a couple missing items from the docs.
Added wxImage, wxImageHandler, wxPNGHandler, wxJPEGHandler,
wxGIFHandler and wxBMPHandler.
Added new methods to wxTextCtrl.
Fixed some problems with how SWIG was wrapping some wxTreeCtrl
methods.
What's new in 2.0b8
-------------------
Support for using Python threads in wxPython apps.
Several missing methods from various classes.
Various bug fixes.
What's new in 2.0b7
-------------------
Added DLG_PNT and DLG_SZE convienience methods to wxWindow class.
Added missing constructor and other methods for wxMenuItem.
What's new in 2.0b6
-------------------
Just a quickie update to fix the self-installer to be compatible with
Python 1.5.2b2's Registry settings.
What's new in 2.0b5
-------------------
Well obviously the numbering scheme has changed. I did this to
reflect the fact that this truly is the second major revision of
wxPython, (well the third actually if you count the one I did for
wxWindows 1.68 and then threw away...) and also that it is associated
with the 2.0 version of wxWindows.
I have finally started documenting wxPython. There are several pages
in the wxWindows documentation tree specifically about wxPython, and I
have added notes within the class references about where and how wxPython
diverges from wxWindows.
Added wxWindow_FromHWND(hWnd) for wxMSW to construct a wxWindow from a
window handle. If you can get the window handle into the python code,
it should just work... More news on this later.
Added wxImageList, wxToolTip.
Re-enabled wxConfig.DeleteAll() since it is reportedly fixed for the
wxRegConfig class.
As usual, some bug fixes, tweaks, etc.
What's new in 0.5.3
-------------------
Added wxSashWindow, wxSashEvent, wxLayoutAlgorithm, etc.
Various cleanup, tweaks, minor additions, etc. to maintain
compatibility with the current wxWindows.
What's new in 0.5.0
-------------------
Changed the import semantics from "from wxPython import *" to "from
wxPython.wx import *" This is for people who are worried about
namespace pollution, they can use "from wxPython import wx" and then
prefix all the wxPython identifiers with "wx."
Added wxTaskbarIcon for wxMSW.
Made the events work for wxGrid.
Added wxConfig.
Added wxMiniFrame for wxGTK.
Changed many of the args and return values that were pointers to gdi
objects to references to reflect changes in the wxWindows API.
Other assorted fixes and additions.
What's new in 0.4.2
-------------------
wxPython on wxGTK works!!! Both dynamic and static on Linux and
static on Solaris have been tested. Many thanks go to Harm
<H.v.d.Heijden@phys.tue.nl> for his astute detective work on tracking
down a nasty DECREF bug. Okay so I have to confess that it was just a
DSM (Dumb Stupid Mistake) on my part but it was nasty none the less
because the behavior was so different on different platforms.
The dynamicly loaded module on Solaris is still segfaulting, so it
must have been a different issue all along...
What's New in 0.4
-----------------
1. Worked on wxGTK compatibility. It is partially working. On a
Solaris/Sparc box wxPython is working but only when it is statically
linked with the Python interpreter. When built as a dyamically loaded
extension module, things start acting weirdly and it soon seg-faults.
And on Linux both the statically linked and the dynamically linked
version segfault shortly after starting up.
2. Added Toolbar, StatusBar and SplitterWindow classes.
3. Varioius bug fixes, enhancements, etc.
----------------------------------------------------------------------
Build Instructions
------------------
I used SWIG (http://www.swig.org) to create the source code for the
extension module. This enabled me to only have to deal with a small
amount of code and only have to bother with the exceptional issues.
SWIG takes care of the rest and generates all the repetative code for
me. You don't need SWIG to build the extension module as all the
generated C++ code is included under the src directory.
I added a few minor features to SWIG to control some of the code
generation. If you want to play around with this you will need to get
a recent version of SWIG from their CVS or from a daily build. See
http://www.swig.org/ for details.
wxPython is organized as a Python package. This means that the
directory containing the results of the build process should be a
subdirectory of a directory on the PYTHONPATH. (And preferably should
be named wxPython.) You can control where the build process will dump
wxPython by setting the TARGETDIR variable for the build utility, (see
below.)
1. Build wxWindows as described in its BuildCVS.txt file. For *nix
systems I run configure with these flags:
--with-gtk
--with-libjpeg
--without-odbc
--enable-unicode=no
--enable-threads=yes
--enable-socket=yes
--enable-static=no
--enable-shared=yes
--disable-std_iostreams
You can use whatever flags you want, but I know these work.
For Win32 systems I use Visual C++ 6.0, but 5.0 should work. The
build utility currently does not support any other win32 compilers.
2. At this point you may want to make an alias or symlink, script,
batch file, whatever on the PATH that invokes
$(WXWIN)/utils/wxPython/distrib/build.py to help simplify matters
somewhat. For example, on my win32 system I have a file named
build.bat in a directory on the PATH that contains:
python $(WXWIN)/utils/wxPython/distrib/build.py %1 %2 %3 %4 %5 %6
3. Change into the $(WXWIN)/utils/wxPython/src directory.
4. Type "build -b" to build wxPython and "build -i" to install it.
The build.py script actually generates a Makefile based on what it
finds on your system and information found in the build.cfg file.
If you have troubles building or you want it built or installed in
a different way, take a look at the docstring in build.py. You may
be able to override configuration options in a file named
build.local.
5. To build and install the add-on modules, change to the appropriate
directory under $(WXWIN)/utils/wxPython/modules and run the build
utility again.
6. Change to the $(WXWIN)/utils/wxPython/demo directory.
7. Try executing the demo program. For example:
python demo.py
To run it without requiring a console on win32, you can use the
pythonw.exe version of Python either from the command line or from a
shortcut.
----------------
Robin Dunn
robin@alldunn.com

139
utils/wxPython/SWIG.patches/Include.patch Normal file
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*** swig.h.old Wed Feb 04 15:59:40 1998
--- swig.h Fri Aug 28 15:46:32 1998
***************
*** 178,185 ****
--- 178,211 ----
char *firstkey();
char *nextkey();
};
+ // -------------------------------------------------------------------
+ // Simple Vector class
+ // User is responsible for deleting contents before deleteing Vector
+ // -------------------------------------------------------------------
+
+ class Vector {
+ public:
+ Vector(size_t allocSize=8);
+ ~Vector();
+
+ size_t size() { return m_size; }
+ size_t count() { return m_count; }
+ size_t append(void* object);
+ size_t extend(size_t newSize);
+
+ void*& operator[] (size_t idx);
+
+ static void* s_nullPtr;
+
+ private:
+ size_t m_size;
+ size_t m_count;
+ void** m_data;
+ };
+
+
/************************************************************************
* class DataType
*
* Defines the basic datatypes supported by the translator.
***************
*** 684,691 ****
--- 710,761 ----
extern char *name_get(char *vname, int suppress=0);
extern char *name_set(char *vname, int suppress=0);
extern char *name_construct(char *classname, int suppress=0);
extern char *name_destroy(char *classname, int suppress=0);
+
+ // ----------------------------------------------------------------------
+ // class CPP_class
+ //
+ // Class for managing class members (internally)
+ // ----------------------------------------------------------------------
+
+ class CPP_member;
+
+ class CPP_class {
+ public:
+ char *classname; // Real class name
+ char *classrename; // New name of class (if applicable)
+ char *classtype; // class type (struct, union, class)
+ int strip; // Strip off class declarator
+ int wextern; // Value of extern wrapper variable for this class
+ int have_constructor; // Status bit indicating if we've seen a constructor
+ int have_destructor; // Status bit indicating if a destructor has been seen
+ int is_abstract; // Status bit indicating if this is an abstract class
+ int generate_default; // Generate default constructors
+ int objective_c; // Set if this is an objective C class
+ int error; // Set if this class can't be generated
+ int line; // Line number
+ char **baseclass; // Base classes (if any)
+ Hash *local; // Hash table for local types
+ Hash *scope; // Local scope hash table
+ DocEntry *de; // Documentation entry of class
+ CPP_member *members; // Linked list of members
+ CPP_class *next; // Next class
+ static CPP_class *classlist; // List of all classes stored
+
+ Vector addPragmas;
+
+ CPP_class(char *name, char *ctype);
+ void add_member(CPP_member *m);
+ CPP_member *search_member(char *name);
+ void inherit_decls(int mode);
+ void emit_decls();
+ static CPP_class *search(char *name);
+ void create_default();
+ static void create_all();
+ };
+
+ extern CPP_class *current_class;
/***********************************************************************
* -- Revision History
* $Log$
* Revision 1.2 1999/07/31 07:54:05 RD
* wxPython 2.1b1:
*
* Added the missing wxWindow.GetUpdateRegion() method.
*
* Made a new change in SWIG (update your patches everybody) that
* provides a fix for global shadow objects that get an exception in
* their __del__ when their extension module has already been deleted.
* It was only a 1 line change in .../SWIG/Modules/pycpp.cxx at about
* line 496 if you want to do it by hand.
*
* It is now possible to run through MainLoop more than once in any one
* process. The cleanup that used to happen as MainLoop completed (and
* prevented it from running again) has been delayed until the wxc module
* is being unloaded by Python.
*
* wxWindow.PopupMenu() now takes a wxPoint instead of x,y. Added
* wxWindow.PopupMenuXY to be consistent with some other methods.
*
* Added wxGrid.SetEditInPlace and wxGrid.GetEditInPlace.
*
* You can now provide your own app.MainLoop method. See
* wxPython/demo/demoMainLoop.py for an example and some explaination.
*
* Got the in-place-edit for the wxTreeCtrl fixed and added some demo
* code to show how to use it.
*
* Put the wxIcon constructor back in for GTK as it now has one that
* matches MSW's.
*
* Added wxGrid.GetCells
*
* Added wxSystemSettings static methods as functions with names like
* wxSystemSettings_GetSystemColour.
*
* Removed wxPyMenu since using menu callbacks have been depreciated in
* wxWindows. Use wxMenu and events instead.
*
* Added alternate wxBitmap constructor (for MSW only) as
* wxBitmapFromData(data, type, width, height, depth = 1)
*
* Added a helper function named wxPyTypeCast that can convert shadow
* objects of one type into shadow objects of another type. (Like doing
* a down-cast.) See the implementation in wx.py for some docs.
*

202
utils/wxPython/SWIG.patches/Modules.patch Normal file
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@@ -0,0 +1,202 @@
*** python.cxx.old Fri Jan 02 23:17:40 1998
--- python.cxx Fri Aug 28 15:49:18 1998
***************
*** 1678,1685 ****
--- 1678,1702 ----
fprintf(stderr,"%s : Line %d. Unable to locate file %s\n", input_file, line_number, value);
}
}
}
+ } else if (strcmp(cmd, "addtomethod") == 0) {
+ // parse value, expected to be in the form "methodName:line"
+ char* txtptr = strchr(value, ':');
+ if (txtptr) {
+ // add name and line to a list in current_class
+ *txtptr = 0;
+ txtptr++;
+ AddPragmaData* apData = new AddPragmaData(value, txtptr);
+ current_class->addPragmas.append(apData);
+
+ } else {
+ fprintf(stderr,"%s : Line %d. Malformed addtomethod pragma. Should be \"methodName:text\"\n",
+ input_file, line_number);
+ }
+ } else if (strcmp(cmd, "addtoclass") == 0) {
+ AddPragmaData* apData = new AddPragmaData("__class__", value);
+ current_class->addPragmas.append(apData);
} else {
fprintf(stderr,"%s : Line %d. Unrecognized pragma.\n", input_file, line_number);
}
}
*** python.h.old Thu Jul 24 23:18:50 1997
--- python.h Fri Aug 28 15:46:08 1998
***************
*** 184,191 ****
--- 184,203 ----
void cpp_declare_const(char *name, char *iname, DataType *type, char *value);
void cpp_class_decl(char *, char *,char *);
void pragma(char *, char *, char *);
void add_typedef(DataType *t, char *name);
+
+ void emitAddPragmas(String& output, char* name, char* spacing);
};
#define PYSHADOW_MEMBER 0x2
+
+ struct AddPragmaData {
+ String m_method;
+ String m_text;
+
+ AddPragmaData(char* method, char* text)
+ : m_method(method),
+ m_text(text)
+ {}
+ };
*** pycpp.cxx.old Fri Jan 02 21:23:22 1998
--- pycpp.cxx Tue Jul 20 14:34:36 1999
***************
*** 275,282 ****
--- 275,283 ----
#endif
}
}
// if ((t->type != T_VOID) || (t->is_pointer))
+ emitAddPragmas(*pyclass, realname, tab8);
*pyclass << tab8 << "return val\n";
// Change the usage string to reflect our shadow class
***************
*** 393,400 ****
--- 394,402 ----
}
}
*construct << ")\n";
*construct << tab8 << "self.thisown = 1\n";
+ emitAddPragmas(*construct, "__init__", tab8);
have_constructor = 1;
} else {
// Hmmm. We seem to be creating a different constructor. We're just going to create a
***************
*** 490,503 ****
if (class_renamed) realname = class_name;
else realname = name;
}
! *pyclass << tab4 << "def __del__(self):\n"
<< tab8 << "if self.thisown == 1 :\n"
<< tab8 << tab4 << module << "." << name_destroy(realname) << "(self.this)\n";
!
have_destructor = 1;
-
if (doc_entry) {
doc_entry->usage = "";
doc_entry->usage << "del this";
}
--- 492,504 ----
if (class_renamed) realname = class_name;
else realname = name;
}
! *pyclass << tab4 << "def __del__(self, " << module << "=" << module << "):\n"
<< tab8 << "if self.thisown == 1 :\n"
<< tab8 << tab4 << module << "." << name_destroy(realname) << "(self.this)\n";
! emitAddPragmas(*pyclass, "__del__", tab8);
have_destructor = 1;
if (doc_entry) {
doc_entry->usage = "";
doc_entry->usage << "del this";
}
***************
*** 551,558 ****
--- 552,561 ----
repr << tab4 << "def __repr__(self):\n"
<< tab8 << "return \"<C " << class_name <<" instance>\"\n";
classes << repr;
+ emitAddPragmas(classes, "__class__", tab4);
+
}
// Now build the real class with a normal constructor
***************
*** 746,753 ****
--- 749,778 ----
hash.add(name,copy_string((char *) hash.lookup(t->name)));
}
}
+ // --------------------------------------------------------------------------------
+ // PYTHON::emitAddPragmas(String& output, char* name, char* spacing);
+ //
+ // Search the current_class->addPragmas vector for any text belonging to name.
+ // Append the text properly spcaed to the output string.
+ //
+ // --------------------------------------------------------------------------------
+
+ void PYTHON::emitAddPragmas(String& output, char* name, char* spacing)
+ {
+ AddPragmaData* apData;
+ size_t count;
+ int i;
+
+ count = current_class->addPragmas.count();
+ for (i=0; i<count; i++) {
+ apData = (AddPragmaData*)current_class->addPragmas[i];
+ if (strcmp(apData->m_method, name) == 0) {
+ output << spacing << apData->m_text << "\n";
+ }
+ }
+ }
/*********************************************************************************
*
* $Log$
* Revision 1.2 1999/07/31 07:54:05 RD
* wxPython 2.1b1:
*
* Added the missing wxWindow.GetUpdateRegion() method.
*
* Made a new change in SWIG (update your patches everybody) that
* provides a fix for global shadow objects that get an exception in
* their __del__ when their extension module has already been deleted.
* It was only a 1 line change in .../SWIG/Modules/pycpp.cxx at about
* line 496 if you want to do it by hand.
*
* It is now possible to run through MainLoop more than once in any one
* process. The cleanup that used to happen as MainLoop completed (and
* prevented it from running again) has been delayed until the wxc module
* is being unloaded by Python.
*
* wxWindow.PopupMenu() now takes a wxPoint instead of x,y. Added
* wxWindow.PopupMenuXY to be consistent with some other methods.
*
* Added wxGrid.SetEditInPlace and wxGrid.GetEditInPlace.
*
* You can now provide your own app.MainLoop method. See
* wxPython/demo/demoMainLoop.py for an example and some explaination.
*
* Got the in-place-edit for the wxTreeCtrl fixed and added some demo
* code to show how to use it.
*
* Put the wxIcon constructor back in for GTK as it now has one that
* matches MSW's.
*
* Added wxGrid.GetCells
*
* Added wxSystemSettings static methods as functions with names like
* wxSystemSettings_GetSystemColour.
*
* Removed wxPyMenu since using menu callbacks have been depreciated in
* wxWindows. Use wxMenu and events instead.
*
* Added alternate wxBitmap constructor (for MSW only) as
* wxBitmapFromData(data, type, width, height, depth = 1)
*
* Added a helper function named wxPyTypeCast that can convert shadow
* objects of one type into shadow objects of another type. (Like doing
* a down-cast.) See the implementation in wx.py for some docs.
*

530
utils/wxPython/SWIG.patches/SWIG.patch Normal file
View File

@@ -0,0 +1,530 @@
*** cplus.cxx.old Mon Feb 02 15:55:42 1998
--- cplus.cxx Fri Aug 28 13:02:50 1998
***************
*** 581,612 ****
// Class for managing class members (internally)
// ----------------------------------------------------------------------
static char *inherit_base_class = 0;
- class CPP_class {
- public:
- char *classname; // Real class name
- char *classrename; // New name of class (if applicable)
- char *classtype; // class type (struct, union, class)
- int strip; // Strip off class declarator
- int wextern; // Value of extern wrapper variable for this class
- int have_constructor; // Status bit indicating if we've seen a constructor
- int have_destructor; // Status bit indicating if a destructor has been seen
- int is_abstract; // Status bit indicating if this is an abstract class
- int generate_default; // Generate default constructors
- int objective_c; // Set if this is an objective C class
- int error; // Set if this class can't be generated
- int line; // Line number
- char **baseclass; // Base classes (if any)
- Hash *local; // Hash table for local types
- Hash *scope; // Local scope hash table
- DocEntry *de; // Documentation entry of class
- CPP_member *members; // Linked list of members
- CPP_class *next; // Next class
- static CPP_class *classlist; // List of all classes stored
! CPP_class(char *name, char *ctype) {
CPP_class *c;
classname = copy_string(name);
classtype = copy_string(ctype);
classrename = 0;
--- 581,593 ----
// Class for managing class members (internally)
// ----------------------------------------------------------------------
static char *inherit_base_class = 0;
+ CPP_class *CPP_class::classlist = 0;
+ CPP_class *current_class;
! CPP_class::CPP_class(char *name, char *ctype) {
CPP_class *c;
classname = copy_string(name);
classtype = copy_string(ctype);
classrename = 0;
***************
*** 642,650 ****
// ------------------------------------------------------------------------------
// Add a new C++ member to this class
// ------------------------------------------------------------------------------
! void add_member(CPP_member *m) {
CPP_member *cm;
// Set base class where this was defined
if (inherit_base_class)
--- 623,631 ----
// ------------------------------------------------------------------------------
// Add a new C++ member to this class
// ------------------------------------------------------------------------------
! void CPP_class::add_member(CPP_member *m) {
CPP_member *cm;
// Set base class where this was defined
if (inherit_base_class)
***************
*** 664,672 ****
// ------------------------------------------------------------------------------
// Search for a member with the given name. Returns the member on success, 0 on failure
// ------------------------------------------------------------------------------
! CPP_member *search_member(char *name) {
CPP_member *m;
char *c;
m = members;
while (m) {
--- 645,653 ----
// ------------------------------------------------------------------------------
// Search for a member with the given name. Returns the member on success, 0 on failure
// ------------------------------------------------------------------------------
! CPP_member *CPP_class::search_member(char *name) {
CPP_member *m;
char *c;
m = members;
while (m) {
***************
*** 680,688 ****
// ------------------------------------------------------------------------------
// Inherit. Put all the declarations associated with this class into the current
// ------------------------------------------------------------------------------
! void inherit_decls(int mode) {
CPP_member *m;
m = members;
while (m) {
inherit_base_class = m->base;
--- 661,669 ----
// ------------------------------------------------------------------------------
// Inherit. Put all the declarations associated with this class into the current
// ------------------------------------------------------------------------------
! void CPP_class::inherit_decls(int mode) {
CPP_member *m;
m = members;
while (m) {
inherit_base_class = m->base;
***************
*** 696,704 ****
// ------------------------------------------------------------------------------
// Emit all of the declarations associated with this class
// ------------------------------------------------------------------------------
! void emit_decls() {
CPP_member *m = members;
int last_scope = name_scope(0);
abstract = is_abstract;
while (m) {
--- 677,685 ----
// ------------------------------------------------------------------------------
// Emit all of the declarations associated with this class
// ------------------------------------------------------------------------------
! void CPP_class::emit_decls() {
CPP_member *m = members;
int last_scope = name_scope(0);
abstract = is_abstract;
while (m) {
***************
*** 713,721 ****
// ------------------------------------------------------------------------------
// Search for a given class in the list
// ------------------------------------------------------------------------------
! static CPP_class *search(char *name) {
CPP_class *c;
c = classlist;
if (!name) return 0;
while (c) {
--- 694,702 ----
// ------------------------------------------------------------------------------
// Search for a given class in the list
// ------------------------------------------------------------------------------
! CPP_class *CPP_class::search(char *name) {
CPP_class *c;
c = classlist;
if (!name) return 0;
while (c) {
***************
*** 729,737 ****
// Add default constructors and destructors
//
// ------------------------------------------------------------------------------
! void create_default() {
if (!generate_default) return;
// Try to generate a constructor if not available.
--- 710,718 ----
// Add default constructors and destructors
//
// ------------------------------------------------------------------------------
! void CPP_class::create_default() {
if (!generate_default) return;
// Try to generate a constructor if not available.
***************
*** 751,764 ****
// ------------------------------------------------------------------------------
// Dump *all* of the classes saved out to the various
// language modules (this does what cplus_close_class used to do)
// ------------------------------------------------------------------------------
- static void create_all();
- };
-
- CPP_class *CPP_class::classlist = 0;
- static CPP_class *current_class;
-
void CPP_class::create_all() {
CPP_class *c;
c = classlist;
while (c) {
--- 732,739 ----
*** vector.cxx.old Fri Aug 28 15:23:16 1998
--- vector.cxx Fri Aug 28 15:46:52 1998
***************
*** 0 ****
--- 1,182 ----
+
+ /*******************************************************************************
+ * Simplified Wrapper and Interface Generator (SWIG)
+ *
+ * Dave Beazley
+ *
+ * Department of Computer Science Theoretical Division (T-11)
+ * University of Utah Los Alamos National Laboratory
+ * Salt Lake City, Utah 84112 Los Alamos, New Mexico 87545
+ * beazley@cs.utah.edu beazley@lanl.gov
+ *
+ * Copyright (c) 1995-1997
+ * The University of Utah and the Regents of the University of California
+ * All Rights Reserved
+ *
+ * Permission is hereby granted, without written agreement and without
+ * license or royalty fees, to use, copy, modify, and distribute this
+ * software and its documentation for any purpose, provided that
+ * (1) The above copyright notice and the following two paragraphs
+ * appear in all copies of the source code and (2) redistributions
+ * including binaries reproduces these notices in the supporting
+ * documentation. Substantial modifications to this software may be
+ * copyrighted by their authors and need not follow the licensing terms
+ * described here, provided that the new terms are clearly indicated in
+ * all files where they apply.
+ *
+ * IN NO EVENT SHALL THE AUTHOR, THE UNIVERSITY OF CALIFORNIA, THE
+ * UNIVERSITY OF UTAH OR DISTRIBUTORS OF THIS SOFTWARE BE LIABLE TO ANY
+ * PARTY FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL
+ * DAMAGES ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION,
+ * EVEN IF THE AUTHORS OR ANY OF THE ABOVE PARTIES HAVE BEEN ADVISED OF
+ * THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ * THE AUTHOR, THE UNIVERSITY OF CALIFORNIA, AND THE UNIVERSITY OF UTAH
+ * SPECIFICALLY DISCLAIM ANY WARRANTIES,INCLUDING, BUT NOT LIMITED TO,
+ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
+ * PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS ON AN "AS IS" BASIS, AND
+ * THE AUTHORS AND DISTRIBUTORS HAVE NO OBLIGATION TO PROVIDE MAINTENANCE,
+ * SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
+ *
+ *******************************************************************************/
+
+ #include "internal.h"
+
+ /*******************************************************************************
+ * $Header$
+ *
+ * File : vector.cxx
+ *
+ * A very simple Vector class. Allways assumes that memory allocations are
+ * successful. Should be made more robust...
+ *
+ *******************************************************************************/
+
+ void* Vector::s_nullPtr = NULL;
+
+ // -----------------------------------------------------------------------------
+ // Vector::Vector(size_t allocSize = 8)
+ //
+ // Constructor. Creates a new Vector.
+ //
+ // Inputs : initial allocation size (optional)
+ //
+ // Output : New Vector object.
+ //
+ // Side Effects : None
+ // -----------------------------------------------------------------------------
+
+ Vector::Vector(size_t allocSize)
+ : m_size(allocSize),
+ m_count(0),
+ m_data(0)
+ {
+ if (m_size) {
+ m_data = new void*[m_size];
+ int i;
+ for (i=0; i<m_size;i++)
+ m_data[i] = 0;
+ }
+ }
+
+
+ // -----------------------------------------------------------------------------
+ // Vector::~Vector
+ //
+ // Destructor. Only cleans up the vector, not its contents!
+ //
+ // -----------------------------------------------------------------------------
+
+
+ Vector::~Vector() {
+ if (m_data) {
+ delete [] m_data;
+ }
+
+ m_data = 0;
+ m_size = m_count = 0;
+ }
+
+
+
+ // -----------------------------------------------------------------------------
+ // size_t Vector::extend(size_t newSize)
+ //
+ // Extends the vector to at least newSize length. Won't do anything if newSize
+ // is smaller than the current size of the vector.
+ //
+ // Returns the new allocated size.
+ //
+ // -----------------------------------------------------------------------------
+
+ #define GRANULARITY 16
+
+ size_t Vector::extend(size_t newSize) {
+
+ if (newSize > m_size) {
+ newSize = newSize + (GRANULARITY - (newSize % GRANULARITY));
+
+ void** temp = new void*[newSize];
+ memcpy(temp, m_data, m_size*sizeof(void*));
+
+ int i;
+ for (i=m_size; i<newSize; i++)
+ temp[i] = 0;
+
+ delete [] m_data;
+ m_data = temp;
+ m_size = newSize;
+ }
+ return m_size;
+ }
+
+
+ // -----------------------------------------------------------------------------
+ // Vector::append(void* object)
+ //
+ // Appends the object pointer to vector at index m_count. Increments m_count.
+ // Returns the new count.
+ // -----------------------------------------------------------------------------
+
+ size_t Vector::append(void* object) {
+ if (m_count >= m_size) {
+ extend(m_count + 1);
+ }
+
+ m_data[m_count] = object;
+ m_count += 1;
+
+ return m_count;
+ }
+
+
+ // -----------------------------------------------------------------------------
+ // Vector::operator[] (size_t idx)
+ //
+ // Returns a reference to the void pointer at idx. If idx is beyond the range
+ // of the vector, returns a reference to s_nullPtr.
+ //
+ // -----------------------------------------------------------------------------
+
+ void*& Vector::operator[] (size_t idx) {
+ if (idx >= m_size) {
+ s_nullPtr = 0;
+ return s_nullPtr;
+ }
+
+ return m_data[idx];
+ }
+
+
+ /***********************************************************************
+ *
+ * -- Revision History
+ * $Log$
+ * Revision 1.3 1999/07/31 07:54:05 RD
+ * wxPython 2.1b1:
+ *
+ * Added the missing wxWindow.GetUpdateRegion() method.
+ *
+ * Made a new change in SWIG (update your patches everybody) that
+ * provides a fix for global shadow objects that get an exception in
+ * their __del__ when their extension module has already been deleted.
+ * It was only a 1 line change in .../SWIG/Modules/pycpp.cxx at about
+ * line 496 if you want to do it by hand.
+ *
+ * It is now possible to run through MainLoop more than once in any one
+ * process. The cleanup that used to happen as MainLoop completed (and
+ * prevented it from running again) has been delayed until the wxc module
+ * is being unloaded by Python.
+ *
+ * wxWindow.PopupMenu() now takes a wxPoint instead of x,y. Added
+ * wxWindow.PopupMenuXY to be consistent with some other methods.
+ *
+ * Added wxGrid.SetEditInPlace and wxGrid.GetEditInPlace.
+ *
+ * You can now provide your own app.MainLoop method. See
+ * wxPython/demo/demoMainLoop.py for an example and some explaination.
+ *
+ * Got the in-place-edit for the wxTreeCtrl fixed and added some demo
+ * code to show how to use it.
+ *
+ * Put the wxIcon constructor back in for GTK as it now has one that
+ * matches MSW's.
+ *
+ * Added wxGrid.GetCells
+ *
+ * Added wxSystemSettings static methods as functions with names like
+ * wxSystemSettings_GetSystemColour.
+ *
+ * Removed wxPyMenu since using menu callbacks have been depreciated in
+ * wxWindows. Use wxMenu and events instead.
+ *
+ * Added alternate wxBitmap constructor (for MSW only) as
+ * wxBitmapFromData(data, type, width, height, depth = 1)
+ *
+ * Added a helper function named wxPyTypeCast that can convert shadow
+ * objects of one type into shadow objects of another type. (Like doing
+ * a down-cast.) See the implementation in wx.py for some docs.
+ *
+ *
+ ***********************************************************************/
+
+
+
+
+
+
*** makefile.msc.old Mon Jun 23 16:15:32 1997
--- makefile.msc Fri Aug 28 11:21:58 1998
***************
*** 33,50 ****
# Normally, you shouldn't have to change anything below this point #
########################################################################
LIBOBJS = main.obj scanner.obj symbol.obj include.obj types.obj parms.obj emit.obj newdoc.obj ascii.obj \
! html.obj latex.obj cplus.obj lang.obj hash.obj sstring.obj wrapfunc.obj getopt.obj comment.obj typemap.obj naming.obj
LIBSRCS = main.cxx scanner.cxx symbol.cxx include.cxx types.cxx parms.cxx emit.cxx \
! newdoc.cxx ascii.cxx html.cxx latex.cxx cplus.cxx lang.cxx hash.cxx \
sstring.cxx wrapfunc.cxx getopt.cxx comment.cxx typemap.cxx naming.cxx
LIBHEADERS = internal.h ../Include/swig.h latex.h ascii.h html.h nodoc.h
LIBNAME = ..\libswig.lib
INCLUDE = -I../Include -I$(STD_INC)
! CFLAGS = -Zi -nologo -DSWIG_LIB="\"$(SWIG_LIB)\"" -DSWIG_CC="\"$(CC)\"" -DMSDOS -DSTDC_HEADERS=1 -DHAVE_LIBDL=1 $(SWIG_OPTS)
LD_FLAGS = -VERBOSE
#
--- 33,50 ----
# Normally, you shouldn't have to change anything below this point #
########################################################################
LIBOBJS = main.obj scanner.obj symbol.obj include.obj types.obj parms.obj emit.obj newdoc.obj ascii.obj \
! html.obj latex.obj cplus.obj lang.obj hash.obj vector.obj sstring.obj wrapfunc.obj getopt.obj comment.obj typemap.obj naming.obj
LIBSRCS = main.cxx scanner.cxx symbol.cxx include.cxx types.cxx parms.cxx emit.cxx \
! newdoc.cxx ascii.cxx html.cxx latex.cxx cplus.cxx lang.cxx hash.cxx vector.cxx \
sstring.cxx wrapfunc.cxx getopt.cxx comment.cxx typemap.cxx naming.cxx
LIBHEADERS = internal.h ../Include/swig.h latex.h ascii.h html.h nodoc.h
LIBNAME = ..\libswig.lib
INCLUDE = -I../Include -I$(STD_INC)
! CFLAGS = -Zi -nologo -DSWIG_LIB="\"$(SWIG_LIB)\"" -DSWIG_CC="\"$(CC)\"" -DMSDOS -DSTDC_HEADERS=1 -DHAVE_LIBDL=1 $(SWIG_OPTS) $(OTHERFLAGS)
LD_FLAGS = -VERBOSE
#
*** makefile.bc.old Sun Jan 04 13:49:24 1998
--- makefile.bc Fri Aug 28 15:42:58 1998
***************
*** 34,47 ****
########################################################################
LIBOBJS = main.obj scanner.obj symbol.obj include.obj types.obj parms.obj \
emit.obj newdoc.obj ascii.obj \
! html.obj latex.obj cplus.obj lang.obj hash.obj sstring.obj \
wrapfunc.obj getopt.obj comment.obj typemap.obj naming.obj
LIBSRCS = main.cxx scanner.cxx symbol.cxx include.cxx types.cxx parms.cxx \
emit.cxx newdoc.cxx ascii.cxx html.cxx latex.cxx cplus.cxx lang.cxx hash.cxx \
! sstring.cxx wrapfunc.cxx getopt.cxx comment.cxx typemap.cxx naming.cxx
LIBHEADERS = internal.h ../Include/swig.h latex.h ascii.h html.h nodoc.h
LIBNAME = ..\libswig.lib
INCLUDE = -I../Include -I$(STD_INC)
--- 34,47 ----
########################################################################
LIBOBJS = main.obj scanner.obj symbol.obj include.obj types.obj parms.obj \
emit.obj newdoc.obj ascii.obj \
! html.obj latex.obj cplus.obj lang.obj hash.obj vector.obj sstring.obj \
wrapfunc.obj getopt.obj comment.obj typemap.obj naming.obj
LIBSRCS = main.cxx scanner.cxx symbol.cxx include.cxx types.cxx parms.cxx \
emit.cxx newdoc.cxx ascii.cxx html.cxx latex.cxx cplus.cxx lang.cxx hash.cxx \
! vector.cxx sstring.cxx wrapfunc.cxx getopt.cxx comment.cxx typemap.cxx naming.cxx
LIBHEADERS = internal.h ../Include/swig.h latex.h ascii.h html.h nodoc.h
LIBNAME = ..\libswig.lib
INCLUDE = -I../Include -I$(STD_INC)
*** Makefile.in.old Wed May 28 23:56:56 1997
--- Makefile.in Fri Aug 28 15:43:36 1998
***************
*** 51,63 ****
# Normally, you shouldn't have to change anything below this point #
########################################################################
LIBOBJS = main.o scanner.o symbol.o include.o types.o parms.o emit.o newdoc.o ascii.o \
! html.o latex.o cplus.o lang.o hash.o sstring.o wrapfunc.o getopt.o comment.o \
typemap.o naming.o
LIBSRCS = main.cxx scanner.cxx symbol.cxx include.cxx types.cxx parms.cxx emit.cxx \
! newdoc.cxx ascii.cxx html.cxx latex.cxx cplus.cxx lang.cxx hash.cxx \
sstring.cxx wrapfunc.cxx getopt.cxx comment.cxx typemap.cxx naming.cxx
LIBHEADERS = internal.h ../Include/swig.h latex.h ascii.h html.h nodoc.h
LIB = ../libswig.a
--- 51,63 ----
# Normally, you shouldn't have to change anything below this point #
########################################################################
LIBOBJS = main.o scanner.o symbol.o include.o types.o parms.o emit.o newdoc.o ascii.o \
! html.o latex.o cplus.o lang.o hash.o vector.o sstring.o wrapfunc.o getopt.o comment.o \
typemap.o naming.o
LIBSRCS = main.cxx scanner.cxx symbol.cxx include.cxx types.cxx parms.cxx emit.cxx \
! newdoc.cxx ascii.cxx html.cxx latex.cxx cplus.cxx lang.cxx hash.cxx vector.cxx \
sstring.cxx wrapfunc.cxx getopt.cxx comment.cxx typemap.cxx naming.cxx
LIBHEADERS = internal.h ../Include/swig.h latex.h ascii.h html.h nodoc.h
LIB = ../libswig.a

5
utils/wxPython/demo/.cvsignore Normal file
View File

@@ -0,0 +1,5 @@
*.pyc
.emacs.desktop
hangman_dict.txt
setup.bat
tmphtml.txt

13
utils/wxPython/demo/ColorPanel.py Normal file
View File

@@ -0,0 +1,13 @@
from wxPython.wx import *
#---------------------------------------------------------------------------
class ColoredPanel(wxWindow):
def __init__(self, parent, color):
wxWindow.__init__(self, parent, -1,
wxDefaultPosition, wxDefaultSize, wxRAISED_BORDER)
self.SetBackgroundColour(color)
#---------------------------------------------------------------------------

126
utils/wxPython/demo/DialogUnits.py Normal file
View File

@@ -0,0 +1,126 @@
#!/usr/bin/env python
#----------------------------------------------------------------------------
# Name: DialogUnits.py
# Purpose: A minimal wxPython program that is a bit smarter than test1.
#
# Author: Robin Dunn
#
# Created: A long time ago, in a galaxy far, far away...
# RCS-ID: $Id$
# Copyright: (c) 1998 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------------
## import all of the wxPython GUI package
from wxPython.wx import *
#---------------------------------------------------------------------------
## Create a new frame class, derived from the wxPython Frame.
class MyFrame(wxFrame):
def __init__(self, parent, id, title):
# First, call the base class' __init__ method to create the frame
wxFrame.__init__(self, parent, id, title,
wxPoint(100, 100), wxSize(160, 100))
# Associate some events with methods of this class
EVT_SIZE(self, self.OnSize)
EVT_MOVE(self, self.OnMove)
# Add a panel and some controls to display the size and position
panel = wxPanel(self, -1)
wxStaticText(panel, -1, "Size:",
wxDLG_PNT(panel, wxPoint(4, 4)), wxDefaultSize)
wxStaticText(panel, -1, "Pos:",
wxDLG_PNT(panel, wxPoint(4, 16)), wxDefaultSize)
self.sizeCtrl = wxTextCtrl(panel, -1, "",
wxDLG_PNT(panel, wxPoint(24, 4)),
wxDLG_SZE(panel, wxSize(36, -1)),
wxTE_READONLY)
self.posCtrl = wxTextCtrl(panel, -1, "",
wxDLG_PNT(panel, wxPoint(24, 16)),
wxDLG_SZE(panel, wxSize(36, -1)),
wxTE_READONLY)
print wxDLG_PNT(panel, wxPoint(24, 4)), wxDLG_SZE(panel, wxSize(36, -1))
print wxDLG_PNT(panel, wxPoint(24, 16)),wxDLG_SZE(panel, wxSize(36, -1))
# This method is called automatically when the CLOSE event is
# sent to this window
def OnCloseWindow(self, event):
# tell the window to kill itself
self.Destroy()
# This method is called by the System when the window is resized,
# because of the association above.
def OnSize(self, event):
size = event.GetSize()
self.sizeCtrl.SetValue("%s, %s" % (size.width, size.height))
# tell the event system to continue looking for an event handler,
# so the default handler will get called.
event.Skip()
# This method is called by the System when the window is moved,
# because of the association above.
def OnMove(self, event):
pos = event.GetPosition()
self.posCtrl.SetValue("%s, %s" % (pos.x, pos.y))
#---------------------------------------------------------------------------
# if running standalone
if __name__ == "__main__":
# Every wxWindows application must have a class derived from wxApp
class MyApp(wxApp):
# wxWindows calls this method to initialize the application
def OnInit(self):
# Create an instance of our customized Frame class
frame = MyFrame(NULL, -1, "This is a test")
frame.Show(true)
# Tell wxWindows that this is our main window
self.SetTopWindow(frame)
# Return a success flag
return true
app = MyApp(0) # Create an instance of the application class
app.MainLoop() # Tell it to start processing events
#---------------------------------------------------------------------------
# if running as part of the Demo Framework...
def runTest(frame, nb, log):
win = MyFrame(frame, -1, "This is a test")
frame.otherWin = win
win.Show(true)
overview = """\
A simple example that shows how to use Dialog Units.
"""
#----------------------------------------------------------------------------
#

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from wxPython.wx import *
from wxPython.lib.layoutf import Layoutf
#---------------------------------------------------------------------------
class TestLayoutf(wxPanel):
def __init__(self, parent):
wxPanel.__init__(self, parent, -1)
self.SetAutoLayout(true)
EVT_BUTTON(self, 100, self.OnButton)
self.panelA = wxWindow(self, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelA.SetBackgroundColour(wxBLUE)
self.panelA.SetConstraints(Layoutf('t=t10#1;l=l10#1;b=b10#1;r%r50#1',(self,)))
self.panelB = wxWindow(self, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelB.SetBackgroundColour(wxRED)
self.panelB.SetConstraints(Layoutf('t=t10#1;r=r10#1;b%b30#1;l>10#2', (self,self.panelA)))
self.panelC = wxWindow(self, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelC.SetBackgroundColour(wxWHITE)
self.panelC.SetConstraints(Layoutf('t_10#3;r=r10#1;b=b10#1;l>10#2', (self,self.panelA,self.panelB)))
b = wxButton(self.panelA, 100, ' Panel A ')
b.SetConstraints(Layoutf('X=X#1;Y=Y#1;h*;w%w50#1', (self.panelA,)))
b = wxButton(self.panelB, 100, ' Panel B ')
b.SetConstraints(Layoutf('t=t2#1;r=r4#1;h*;w*', (self.panelB,)))
self.panelD = wxWindow(self.panelC, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelD.SetBackgroundColour(wxGREEN)
self.panelD.SetConstraints(Layoutf('b%h50#1;r%w50#1;h=h#2;w=w#2', (self.panelC, b)))
b = wxButton(self.panelC, 100, ' Panel C ')
b.SetConstraints(Layoutf('t_#1;l>#1;h*;w*', (self.panelD,)))
wxStaticText(self.panelD, -1, "Panel D", wxPoint(4, 4)).SetBackgroundColour(wxGREEN)
def OnButton(self, event):
wxBell()
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestLayoutf(nb)
return win
#---------------------------------------------------------------------------
overview = Layoutf.__doc__

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#!/bin/env python
#----------------------------------------------------------------------------
# Name: Main.py
# Purpose: Testing lots of stuff, controls, window types, etc.
#
# Author: Robin Dunn & Gary Dumer
#
# Created:
# RCS-ID: $Id$
# Copyright: (c) 1999 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------------
import sys, os
from wxPython.wx import *
#---------------------------------------------------------------------------
_treeList = [
('Managed Windows', ['wxFrame', 'wxDialog', 'wxMiniFrame']),
('Miscellaneous Windows', ['wxGrid', 'wxSashWindow',
'wxScrolledWindow', 'wxSplitterWindow',
'wxStatusBar', 'wxToolBar', 'wxNotebook']),
('Common Dialogs', ['wxColourDialog', 'wxDirDialog', 'wxFileDialog',
'wxSingleChoiceDialog', 'wxTextEntryDialog',
'wxFontDialog', 'wxPageSetupDialog', 'wxPrintDialog',
'wxMessageDialog', 'wxProgressDialog']),
('Controls', ['wxButton', 'wxCheckBox', 'wxCheckListBox', 'wxChoice',
'wxComboBox', 'wxGauge', 'wxListBox', 'wxListCtrl', 'wxTextCtrl',
'wxTreeCtrl', 'wxSpinButton', 'wxStaticText', 'wxStaticBitmap',
'wxRadioBox', 'wxSlider']),
('Window Layout', ['wxLayoutConstraints', 'Sizers']),
('Miscellaneous', ['wxTimer', 'wxGLCanvas', 'DialogUnits', 'wxImage',
'PrintFramework']),
('wxPython Library', ['Sizers', 'Layoutf', 'wxScrolledMessageDialog',
'wxMultipleChoiceDialog', 'wxPlotCanvas']),
('Cool Contribs', ['pyTree', 'hangman', 'SlashDot', 'XMLtreeview']),
]
#---------------------------------------------------------------------------
class wxPythonDemo(wxFrame):
def __init__(self, parent, id, title):
wxFrame.__init__(self, parent, -1, title,
wxDefaultPosition, wxSize(700, 550))
if wxPlatform == '__WXMSW__':
self.icon = wxIcon('bitmaps/mondrian.ico', wxBITMAP_TYPE_ICO)
self.SetIcon(self.icon)
self.otherWin = None
EVT_IDLE(self, self.OnIdle)
self.Centre(wxBOTH)
self.CreateStatusBar(1, wxST_SIZEGRIP)
splitter = wxSplitterWindow(self, -1)
splitter2 = wxSplitterWindow(splitter, -1)
# Prevent TreeCtrl from displaying all items after destruction
self.dying = false
# Make a File menu
self.mainmenu = wxMenuBar()
menu = wxMenu()
mID = NewId()
menu.Append(mID, 'E&xit', 'Get the heck outta here!')
EVT_MENU(self, mID, self.OnFileExit)
self.mainmenu.Append(menu, '&File')
# Make a Help menu
mID = NewId()
menu = wxMenu()
menu.Append(mID, '&About', 'wxPython RULES!!!')
EVT_MENU(self, mID, self.OnHelpAbout)
self.mainmenu.Append(menu, '&Help')
self.SetMenuBar(self.mainmenu)
selectedDemo = None
selectedDemoName = "Nada"
if len(sys.argv) == 2:
selectedDemoName = sys.argv[1]
# Create a TreeCtrl
tID = NewId()
self.tree = wxTreeCtrl(splitter, tID)
root = self.tree.AddRoot("Overview")
for item in _treeList:
child = self.tree.AppendItem(root, item[0])
for childItem in item[1]:
theDemo = self.tree.AppendItem(child, childItem)
if childItem == selectedDemoName:
selectedDemo = theDemo
self.tree.Expand(root)
EVT_TREE_ITEM_EXPANDED (self.tree, tID, self.OnItemExpanded)
EVT_TREE_ITEM_COLLAPSED (self.tree, tID, self.OnItemCollapsed)
EVT_TREE_SEL_CHANGED (self.tree, tID, self.OnSelChanged)
# Create a Notebook
self.nb = wxNotebook(splitter2, -1)
# Set up a TextCtrl on the Overview Notebook page
self.ovr = wxTextCtrl(self.nb, -1, style = wxTE_MULTILINE|wxTE_READONLY)
self.nb.AddPage(self.ovr, "Overview")
# Set up a TextCtrl on the Demo Code Notebook page
self.txt = wxTextCtrl(self.nb, -1,
style = wxTE_MULTILINE|wxTE_READONLY|wxHSCROLL)
self.txt.SetFont(wxFont(9, wxMODERN, wxNORMAL, wxNORMAL, false))
self.nb.AddPage(self.txt, "Demo Code")
# Set up a log on the View Log Notebook page
self.log = wxTextCtrl(splitter2, -1,
style = wxTE_MULTILINE|wxTE_READONLY|wxHSCROLL)
(w, self.charHeight) = self.log.GetTextExtent('X')
#self.WriteText('wxPython Demo Log:\n')
# add the windows to the splitter and split it.
splitter.SplitVertically(self.tree, splitter2)
splitter.SetSashPosition(180, true)
splitter.SetMinimumPaneSize(20)
splitter2.SplitHorizontally(self.nb, self.log)
splitter2.SetSashPosition(360, true)
splitter2.SetMinimumPaneSize(20)
# make our log window be stdout
#sys.stdout = self
# select initial items
self.nb.SetSelection(0)
self.tree.SelectItem(root)
if selectedDemo:
self.tree.SelectItem(selectedDemo)
self.tree.EnsureVisible(selectedDemo)
#---------------------------------------------
def WriteText(self, text):
self.log.WriteText(text)
w, h = self.log.GetClientSizeTuple()
numLines = h/self.charHeight
x, y = self.log.PositionToXY(self.log.GetLastPosition())
self.log.ShowPosition(self.log.XYToPosition(x, y-numLines))
##self.log.ShowPosition(self.log.GetLastPosition())
self.log.SetInsertionPointEnd()
def write(self, txt):
self.WriteText(txt)
#---------------------------------------------
def OnItemExpanded(self, event):
item = event.GetItem()
self.log.WriteText("OnItemExpanded: %s\n" % self.tree.GetItemText(item))
#---------------------------------------------
def OnItemCollapsed(self, event):
item = event.GetItem()
self.log.WriteText("OnItemCollapsed: %s\n" % self.tree.GetItemText(item))
#---------------------------------------------
def OnSelChanged(self, event):
if self.dying:
return
if self.nb.GetPageCount() == 3:
if self.nb.GetSelection() == 2:
self.nb.SetSelection(0)
self.nb.DeletePage(2)
item = event.GetItem()
itemText = self.tree.GetItemText(item)
if itemText == 'Overview':
self.GetDemoFile('Main.py')
self.SetOverview('Overview', overview)
#self.nb.ResizeChildren();
self.nb.Refresh();
#wxYield()
else:
if os.path.exists(itemText + '.py'):
self.GetDemoFile(itemText + '.py')
module = __import__(itemText, globals())
self.SetOverview(itemText, module.overview)
# in case runTest is modal, make sure things look right...
self.nb.Refresh();
wxYield()
window = module.runTest(self, self.nb, self)
if window:
self.nb.AddPage(window, 'Demo')
self.nb.SetSelection(2)
self.nb.ResizeChildren();
else:
self.ovr.Clear()
self.txt.Clear()
#---------------------------------------------
# Get the Demo files
def GetDemoFile(self, filename):
self.txt.Clear()
#if not self.txt.LoadFile(filename):
# self.txt.WriteText("Cannot open %s file." % filename)
try:
self.txt.SetValue(open(filename).read())
except IOError:
self.txt.WriteText("Cannot open %s file." % filename)
self.txt.SetInsertionPoint(0)
self.txt.ShowPosition(0)
#---------------------------------------------
def SetOverview(self, name, text):
self.ovr.Clear()
self.ovr.WriteText(text)
self.nb.SetPageText(0, name)
self.ovr.SetInsertionPoint(0)
self.ovr.ShowPosition(0)
#---------------------------------------------
# Menu methods
def OnFileExit(self, event):
self.Close()
def OnHelpAbout(self, event):
about = wxMessageDialog(self,
"wxPython is a Python extension module that\n"
"encapsulates the wxWindows GUI classes.\n\n"
"This demo shows off some of the capabilities\n"
"of wxPython.\n\n"
" Developed by Robin Dunn",
"About wxPython", wxOK)
about.ShowModal()
about.Destroy()
#---------------------------------------------
def OnCloseWindow(self, event):
self.dying = true
self.Destroy()
#---------------------------------------------
def OnIdle(self, event):
if self.otherWin:
self.otherWin.Raise()
self.otherWin = None
#---------------------------------------------------------------------------
#---------------------------------------------------------------------------
class MyApp(wxApp):
def OnInit(self):
wxImage_AddHandler(wxJPEGHandler())
wxImage_AddHandler(wxPNGHandler())
wxImage_AddHandler(wxGIFHandler())
frame = wxPythonDemo(NULL, -1, "wxPython: (A Demonstration)")
frame.Show(true)
self.SetTopWindow(frame)
return true
#---------------------------------------------------------------------------
def main():
app = MyApp(0)
app.MainLoop()
#---------------------------------------------------------------------------
overview = """\
Python
------------
Python is an interpreted, interactive, object-oriented programming language often compared to Tcl, Perl, Scheme, or Java.
Python combines remarkable power with very clear syntax. It has modules, classes, exceptions, very high level dynamic data types, and dynamic typing. There are interfaces to many system calls and libraries, and new built-in modules are easily written in C or C++. Python is also usable as an extension language for applications that need a programmable interface.
wxWindows
--------------------
wxWindows is a free C++ framework designed to make cross-platform programming child's play. Well, almost. wxWindows 2 supports Windows 3.1/95/98/NT, Unix with GTK/Motif/Lesstif, with a Mac version underway. Other ports are under consideration.
wxWindows is a set of libraries that allows C++ applications to compile and run on several different types of computers, with minimal source code changes. There is one library per supported GUI (such as Motif, or Windows). As well as providing a common API (Application Programming Interface) for GUI functionality, it provides functionality for accessing some commonly-used operating system facilities, such as copying or deleting files. wxWindows is a 'framework' in the sense that it provides a lot of built-in functionality, which the application can use or replace as required, thus saving a great deal of coding effort. Basic data structures such as strings, linked lists and hash tables are also supported.
wxPython
----------------
wxPython is a Python extension module that encapsulates the wxWindows GUI classes. Currently it is only available for the Win32 and GTK ports of wxWindows, but as soon as the other ports are brought up to the same level as Win32 and GTK, it should be fairly trivial to enable wxPython to be used with the new GUI.
The wxPython extension module attempts to mirror the class heiarchy of wxWindows as closely as possible. This means that there is a wxFrame class in wxPython that looks, smells, tastes and acts almost the same as the wxFrame class in the C++ version. Unfortunately, because of differences in the languages, wxPython doesn't match wxWindows exactly, but the differences should be easy to absorb because they are natural to Python. For example, some methods that return multiple values via argument pointers in C++ will return a tuple of values in Python.
There is still much to be done for wxPython, many classes still need to be mirrored. Also, wxWindows is still somewhat of a moving target so it is a bit of an effort just keeping wxPython up to date. On the other hand, there are enough of the core classes completed that useful applications can be written.
wxPython is close enough to the C++ version that the majority of the wxPython documentation is actually just notes attached to the C++ documents that describe the places where wxPython is different. There is also a series of sample programs included, and a series of documentation pages that assist the programmer in getting started with wxPython.
"""
#----------------------------------------------------------------------------
#----------------------------------------------------------------------------
if __name__ == '__main__':
main()
#----------------------------------------------------------------------------

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from wxPython.wx import *
from wxPython.lib.sizers import *
from wxScrolledWindow import MyCanvas
#----------------------------------------------------------------------
class MyPrintout(wxPrintout):
def __init__(self, canvas, log):
wxPrintout.__init__(self)
self.canvas = canvas
self.log = log
def OnBeginDocument(self, start, end):
self.log.WriteText("wxPrintout.OnBeginDocument\n")
return self.base_OnBeginDocument(start, end)
def OnEndDocument(self):
self.log.WriteText("wxPrintout.OnEndDocument\n")
self.base_OnEndDocument()
def OnBeginPrinting(self):
self.log.WriteText("wxPrintout.OnBeginPrinting\n")
self.base_OnBeginPrinting()
def OnEndPrinting(self):
self.log.WriteText("wxPrintout.OnEndPrinting\n")
self.base_OnEndPrinting()
def OnPreparePrinting(self):
self.log.WriteText("wxPrintout.OnPreparePrinting\n")
self.base_OnPreparePrinting()
def HasPage(self, page):
self.log.WriteText("wxPrintout.HasPage\n")
if page == 1:
return true
else:
return false
def GetPageInfo(self):
self.log.WriteText("wxPrintout.GetPageInfo\n")
return (1, 1, 1, 1)
def OnPrintPage(self, page):
self.log.WriteText("wxPrintout.OnPrintPage\n")
dc = self.GetDC()
#-------------------------------------------
# One possible method of setting scaling factors...
maxX = self.canvas.getWidth()
maxY = self.canvas.getHeight()
# Let's have at least 50 device units margin
marginX = 50
marginY = 50
# Add the margin to the graphic size
maxX = maxX + (2 * marginX)
maxY = maxY + (2 * marginY)
# Get the size of the DC in pixels
(w, h) = dc.GetSizeTuple()
# Calculate a suitable scaling factor
scaleX = float(w) / maxX
scaleY = float(h) / maxY
# Use x or y scaling factor, whichever fits on the DC
actualScale = min(scaleX, scaleY)
# Calculate the position on the DC for centring the graphic
posX = (w - (self.canvas.getWidth() * actualScale)) / 2.0
posY = (h - (self.canvas.getHeight() * actualScale)) / 2.0
# Set the scale and origin
dc.SetUserScale(actualScale, actualScale)
dc.SetDeviceOrigin(int(posX), int(posY))
#-------------------------------------------
self.canvas.DoDrawing(dc)
return true
#----------------------------------------------------------------------
class TestPrintPanel(wxPanel):
def __init__(self, parent, frame, log):
wxPanel.__init__(self, parent, -1)
self.log = log
self.frame = frame
self.printData = wxPrintData()
self.printData.SetPaperId(wxPAPER_LETTER)
self.box = box.wxBoxSizer(wxVERTICAL)
self.canvas = MyCanvas(self)
self.box.Add(self.canvas, 1)
subbox = wxBoxSizer(wxHORIZONTAL)
btn = wxButton(self, 1201, "Print Setup")
EVT_BUTTON(self, 1201, self.OnPrintSetup)
subbox.Add(btn, 1)
btn = wxButton(self, 1202, "Print Preview")
EVT_BUTTON(self, 1202, self.OnPrintPreview)
subbox.Add(btn, 1)
btn = wxButton(self, 1203, "Print")
EVT_BUTTON(self, 1203, self.OnDoPrint)
subbox.Add(btn, 1)
self.box.Add(subbox)
def OnSize(self, event):
size = self.GetClientSize()
self.box.Layout(size)
def OnPrintSetup(self, event):
printerDialog = wxPrintDialog(self)
printerDialog.GetPrintDialogData().SetPrintData(self.printData)
printerDialog.GetPrintDialogData().SetSetupDialog(true)
printerDialog.ShowModal();
self.printData = printerDialog.GetPrintDialogData().GetPrintData()
printerDialog.Destroy()
def OnPrintPreview(self, event):
self.log.WriteText("OnPrintPreview\n")
printout = MyPrintout(self.canvas, self.log)
printout2 = MyPrintout(self.canvas, self.log)
self.preview = wxPrintPreview(printout, printout2, self.printData)
if not self.preview.Ok():
self.log.WriteText("Houston, we have a problem...\n")
return
frame = wxPreviewFrame(self.preview, self.frame, "This is a print preview")
frame.Initialize()
frame.SetPosition(self.frame.GetPosition())
frame.SetSize(self.frame.GetSize())
frame.Show(true)
def OnDoPrint(self, event):
pdd = wxPrintDialogData()
pdd.SetPrintData(self.printData)
printer = wxPrinter(pdd)
printout = MyPrintout(self.canvas, self.log)
if not printer.Print(self.frame, printout):
wxMessageBox("There was a problem printing.\nPerhaps your current printer is not set correctly?", "Printing", wxOK)
else:
self.printData = printer.GetPrintDialogData().GetPrintData()
printout.Destroy()
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPrintPanel(nb, frame, log)
return win
#----------------------------------------------------------------------
overview = """\
"""

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utils/wxPython/demo/README.txt Normal file
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To run the main demo in this directory, execute demo.py. In other
words, one of the following commands should do it:
demo.py
python demo.py
pythonw demo.py

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#----------------------------------------------------------------------
# sizer test code
#----------------------------------------------------------------------
from wxPython.wx import *
from wxPython.lib.sizers import *
#----------------------------------------------------------------------
def makeSimpleBox1(win):
box = wxBoxSizer(wxHORIZONTAL)
box.Add(wxButton(win, 1010, "one"), 0)
box.Add(wxButton(win, 1010, "two"), 0)
box.Add(wxButton(win, 1010, "three"), 0)
box.Add(wxButton(win, 1010, "four"), 0)
return box
#----------------------------------------------------------------------
def makeSimpleBox2(win):
box = wxBoxSizer(wxVERTICAL)
box.Add(wxButton(win, 1010, "one"), 0)
box.Add(wxButton(win, 1010, "two"), 0)
box.Add(wxButton(win, 1010, "three"), 0)
box.Add(wxButton(win, 1010, "four"), 0)
return box
#----------------------------------------------------------------------
def makeSimpleBox3(win):
box = wxBoxSizer(wxHORIZONTAL)
box.Add(wxButton(win, 1010, "one"), 0)
box.Add(wxButton(win, 1010, "two"), 0)
box.Add(wxButton(win, 1010, "three"), 0)
box.Add(wxButton(win, 1010, "four"), 0)
box.Add(wxButton(win, 1010, "five"), 1)
return box
#----------------------------------------------------------------------
def makeSimpleBox4(win):
box = wxBoxSizer(wxHORIZONTAL)
box.Add(wxButton(win, 1010, "one"), 0)
box.Add(wxButton(win, 1010, "two"), 0)
box.Add(wxButton(win, 1010, "three"), 1)
box.Add(wxButton(win, 1010, "four"), 1)
box.Add(wxButton(win, 1010, "five"), 1)
return box
#----------------------------------------------------------------------
def makeSimpleBox5(win):
box = wxBoxSizer(wxHORIZONTAL)
box.Add(wxButton(win, 1010, "one"), 0)
box.Add(wxButton(win, 1010, "two"), 0)
box.Add(wxButton(win, 1010, "three"), 3)
box.Add(wxButton(win, 1010, "four"), 1)
box.Add(wxButton(win, 1010, "five"), 1)
return box
#----------------------------------------------------------------------
def makeSimpleBox6(win):
box = wxBoxSizer(wxHORIZONTAL, wxSize(250, 50))
box.Add(wxButton(win, 1010, "10"), 10)
box.Add(wxButton(win, 1010, "20"), 20)
box.Add(wxButton(win, 1010, "30"), 30)
box.Add(wxButton(win, 1010, "15"), 15)
box.Add(wxButton(win, 1010, "5"), 5)
return box
#----------------------------------------------------------------------
def makeSimpleBorder1(win):
bdr = wxBorderSizer(wxALL)
btn = wxButton(win, 1010, "border")
btn.SetSize(wxSize(80, 80))
bdr.Add(btn, 15)
return bdr
#----------------------------------------------------------------------
def makeSimpleBorder2(win):
bdr = wxBorderSizer(wxEAST | wxWEST)
btn = wxButton(win, 1010, "border")
btn.SetSize(wxSize(80, 80))
bdr.Add(btn, 15)
return bdr
#----------------------------------------------------------------------
def makeSimpleBorder3(win):
bdr = wxBorderSizer(wxNORTH | wxWEST)
btn = wxButton(win, 1010, "border")
btn.SetSize(wxSize(80, 80))
bdr.Add(btn, 15)
return bdr
#----------------------------------------------------------------------
#----------------------------------------------------------------------
def makeBoxInBox(win):
box = wxBoxSizer(wxVERTICAL)
box.Add(wxButton(win, 1010, "one"))
box2 = wxBoxSizer(wxHORIZONTAL)
box2.AddMany([ wxButton(win, 1010, "two"),
wxButton(win, 1010, "three"),
wxButton(win, 1010, "four"),
wxButton(win, 1010, "five"),
])
box3 = wxBoxSizer(wxVERTICAL)
box3.AddMany([ (wxButton(win, 1010, "six"), 0),
(wxButton(win, 1010, "seven"), 2),
(wxButton(win, 1010, "eight"), 1),
(wxButton(win, 1010, "nine"), 1),
])
box2.Add(box3, 1)
box.Add(box2, 1)
box.Add(wxButton(win, 1010, "ten"))
return box
#----------------------------------------------------------------------
def makeBoxInBorder(win):
bdr = wxBorderSizer(wxALL)
box = makeSimpleBox3(win)
bdr.Add(box, 15)
return bdr
#----------------------------------------------------------------------
def makeBorderInBox(win):
insideBox = wxBoxSizer(wxHORIZONTAL)
box2 = wxBoxSizer(wxHORIZONTAL)
box2.AddMany([ wxButton(win, 1010, "one"),
wxButton(win, 1010, "two"),
wxButton(win, 1010, "three"),
wxButton(win, 1010, "four"),
wxButton(win, 1010, "five"),
])
insideBox.Add(box2, 0)
bdr = wxBorderSizer(wxALL)
bdr.Add(wxButton(win, 1010, "border"), 20)
insideBox.Add(bdr, 1)
box3 = wxBoxSizer(wxVERTICAL)
box3.AddMany([ (wxButton(win, 1010, "six"), 0),
(wxButton(win, 1010, "seven"), 2),
(wxButton(win, 1010, "eight"), 1),
(wxButton(win, 1010, "nine"), 1),
])
insideBox.Add(box3, 1)
outsideBox = wxBoxSizer(wxVERTICAL)
outsideBox.Add(wxButton(win, 1010, "top"))
outsideBox.Add(insideBox, 1)
outsideBox.Add(wxButton(win, 1010, "bottom"))
return outsideBox
#----------------------------------------------------------------------
theTests = [
("Simple horizontal boxes", makeSimpleBox1,
"This is a HORIZONTAL box sizer with four non-stretchable buttons held "
"within it. Notice that the buttons are added and aligned in the horizontal "
"dimension. Also notice that they are fixed size in the horizontal dimension, "
"but will stretch vertically."
),
("Simple vertical boxes", makeSimpleBox2,
"Exactly the same as the previous sample but using a VERTICAL box sizer "
"instead of a HORIZONTAL one."
),
("Add a stretchable", makeSimpleBox3,
"We've added one more button with the strechable flag turned on. Notice "
"how it grows to fill the extra space in the otherwise fixed dimension."
),
("More than one stretchable", makeSimpleBox4,
"Here there are several items that are stretchable, they all divide up the "
"extra space evenly."
),
("Weighting factor", makeSimpleBox5,
"This one shows more than one strechable, but one of them has a weighting "
"factor so it gets more of the free space."
),
# ("Percent Sizer", makeSimpleBox6,
# "You can use the wxBoxSizer like a Percent Sizer. Just make sure that all "
# "the weighting factors add up to 100!"
# ),
("", None, ""),
("Simple border sizer", makeSimpleBorder1,
"The wxBorderSizer leaves empty space around its contents. This one "
"gives a border all the way around."
),
("East and West border", makeSimpleBorder2,
"You can pick and choose which sides have borders."
),
("North and West border", makeSimpleBorder3,
"You can pick and choose which sides have borders."
),
("", None, ""),
("Boxes inside of boxes", makeBoxInBox,
"This one shows nesting of boxes within boxes within boxes, using both "
"orientations. Notice also that button seven has a greater weighting "
"factor than its siblings."
),
("Boxes inside a Border", makeBoxInBorder,
"Sizers of different types can be nested withing each other as well. "
"Here is a box sizer with several buttons embedded within a border sizer."
),
("Border in a Box", makeBorderInBox,
"Another nesting example. This one has Boxes and a Border inside another Box."
),
]
#----------------------------------------------------------------------
class TestFrame(wxFrame):
def __init__(self, parent, title, sizerFunc):
wxFrame.__init__(self, parent, -1, title)
EVT_BUTTON(self, 1010, self.OnButton)
self.sizer = sizerFunc(self)
self.CreateStatusBar()
self.SetStatusText("Resize this frame to see how the sizers respond...")
self.sizer.FitWindow(self)
def OnSize(self, event):
size = self.GetClientSize()
self.sizer.Layout(size)
def OnCloseWindow(self, event):
self.MakeModal(false)
self.Destroy()
def OnButton(self, event):
self.Close(true)
#----------------------------------------------------------------------
class TestSelectionPanel(wxPanel):
def __init__(self, parent, frame):
wxPanel.__init__(self, parent, -1)
self.frame = frame
self.list = wxListBox(self, 401,
wxDLG_PNT(self, 10, 10), wxDLG_SZE(self, 100, 60),
[])
EVT_LISTBOX(self, 401, self.OnSelect)
EVT_LISTBOX_DCLICK(self, 401, self.OnDClick)
wxButton(self, 402, "Try it!", wxDLG_PNT(self, 120, 10)).SetDefault()
EVT_BUTTON(self, 402, self.OnDClick)
self.text = wxTextCtrl(self, -1, "",
wxDLG_PNT(self, 10, 80),
wxDLG_SZE(self, 200, 60),
wxTE_MULTILINE | wxTE_READONLY)
for item in theTests:
self.list.Append(item[0])
def OnSelect(self, event):
pos = self.list.GetSelection()
self.text.SetValue(theTests[pos][2])
def OnDClick(self, event):
pos = self.list.GetSelection()
title = theTests[pos][0]
func = theTests[pos][1]
if func:
win = TestFrame(self, title, func)
win.CentreOnParent(wxBOTH)
win.Show(true)
win.MakeModal(true)
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestSelectionPanel(nb, frame)
return win
overview = wxSizer.__doc__ + '\n' + '-' * 80 + '\n' + \
wxBoxSizer.__doc__ + '\n' + '-' * 80 + '\n' + \
wxBorderSizer.__doc__
#----------------------------------------------------------------------
if __name__ == '__main__':
class MainFrame(wxFrame):
def __init__(self):
wxFrame.__init__(self, NULL, -1, "Testing...")
self.CreateStatusBar()
mainmenu = wxMenuBar()
menu = wxMenu()
menu.Append(200, 'E&xit', 'Get the heck outta here!')
mainmenu.Append(menu, "&File")
self.SetMenuBar(mainmenu)
EVT_MENU(self, 200, self.OnExit)
self.panel = TestSelectionPanel(self)
self.SetSize(wxSize(400, 380))
def OnCloseWindow(self, event):
self.Destroy()
def OnExit(self, event):
self.Close(true)
class TestApp(wxApp):
def OnInit(self):
frame = MainFrame()
frame.Show(true)
self.SetTopWindow(frame)
return true
app = TestApp(0)
app.MainLoop()
#----------------------------------------------------------------------

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#!/usr/bin/python
"""This is SlashDot 1.2
It's the obligatory Slashdot.org headlines reader that
any modern widget set/library must have in order to be taken
seriously :-)
Usage is quite simple; wxSlash attempts to download the
'ultramode.txt' file from http://slashdot.org, which
contains the headlines in a computer friendly format. It
then displays said headlines in a wxWindows list control.
You can read articles using either Python's html library
or an external browser. Uncheck the 'browser->internal' menu
item to use the latter option. Use the settings dialog box
to set which external browser is started.
This code is available under the wxWindows license, see
elsewhere. If you modify this code, be aware of the fact
that slashdot.org's maintainer, CmdrTaco, explicitly asks
'ultramode.txt' downloaders not to do this automatically
more than twice per hour. If this feature is abused,
CmdrTaco may remove the ultramode file completely and that
will make a *lot* of people unhappy.
I want to thank Alex Shnitman whose slashes.pl
(Perl/GTK) script gave me the idea for this applet.
Have fun with it,
Harm van der Heijden (H.v.d.Heijden@phys.tue.nl)
"""
from wxPython.wx import *
from httplib import HTTP
from htmllib import HTMLParser
import os
import re
import formatter
class HTMLTextView(wxFrame):
def __init__(self, parent, id, title='HTMLTextView', url=None):
wxFrame.__init__(self, parent, id, title, wxPyDefaultPosition,
wxSize(600,400))
self.mainmenu = wxMenuBar()
menu = wxMenu()
menu.Append(201, '&Open URL...', 'Open URL')
EVT_MENU(self, 201, self.OnFileOpen)
menu.Append(209, 'E&xit', 'Exit viewer')
EVT_MENU(self, 209, self.OnFileExit)
self.mainmenu.Append(menu, '&File')
self.SetMenuBar(self.mainmenu)
self.CreateStatusBar(1)
self.text = wxTextCtrl(self, -1, "", wxPyDefaultPosition,
wxPyDefaultSize, wxTE_MULTILINE | wxTE_READONLY)
if (url):
self.OpenURL(url)
def logprint(self, x):
self.SetStatusText(x)
def OpenURL(self, url):
self.url = url
m = re.match('file:(\S+)\s*', url)
if m:
f = open(m.groups()[0],'r')
else:
m = re.match('http://([^/]+)(/\S*)\s*', url)
if m:
host = m.groups()[0]
path = m.groups()[1]
else:
m = re.match('http://(\S+)\s*', url)
if not m:
# Invalid URL
self.logprint("Invalid or unsupported URL: %s" % (url))
return
host = m.groups()[0]
path = ''
f = RetrieveAsFile(host,path,self.logprint)
if not f:
self.logprint("Could not open %s" % (url))
return
self.logprint("Receiving data...")
data = f.read()
tmp = open('tmphtml.txt','w')
fmt = formatter.AbstractFormatter(formatter.DumbWriter(tmp))
p = HTMLParser(fmt)
self.logprint("Parsing data...")
p.feed(data)
p.close()
tmp.close()
tmp = open('tmphtml.txt', 'r')
self.text.SetValue(tmp.read())
self.SetTitle(url)
self.logprint(url)
def OnFileOpen(self, event):
dlg = wxTextEntryDialog(self, "Enter URL to open:", "")
if dlg.ShowModal() == wxID_OK:
url = dlg.GetValue()
else:
url = None
if url:
self.OpenURL(url)
def OnFileExit(self, event):
self.Close()
def OnCloseWindow(self, event):
self.Destroy()
def ParseSlashdot(f):
art_sep = re.compile('%%\r?\n')
line_sep = re.compile('\r?\n')
data = f.read()
list = art_sep.split(data)
art_list = []
for i in range(1,len(list)-1):
art_list.append(line_sep.split(list[i]))
return art_list
def myprint(x):
print x
def RetrieveAsFile(host, path='', logprint = myprint):
try:
h = HTTP(host)
except:
logprint("Failed to create HTTP connection to %s... is the network available?" % (host))
return None
h.putrequest('GET',path)
h.putheader('Accept','text/html')
h.putheader('Accept','text/plain')
h.endheaders()
errcode, errmsg, headers = h.getreply()
if errcode != 200:
logprint("HTTP error code %d: %s" % (errcode, errmsg))
return None
f = h.getfile()
# f = open('/home/harm/ultramode.txt','r')
return f
class AppStatusBar(wxStatusBar):
def __init__(self, parent):
wxStatusBar.__init__(self,parent, -1)
self.SetFieldsCount(2)
self.SetStatusWidths([-1, 100])
self.but = wxButton(self, 1001, "Refresh")
EVT_BUTTON(self, 1001, parent.OnViewRefresh)
self.OnSize(None)
def logprint(self,x):
self.SetStatusText(x,0)
def OnSize(self, event):
rect = self.GetFieldRect(1)
self.but.SetPosition(wxPoint(rect.x+2, rect.y+2))
self.but.SetSize(wxSize(rect.width-4, rect.height-4))
# This is a simple timer class to start a function after a short delay;
class QuickTimer(wxTimer):
def __init__(self, func, wait=100):
wxTimer.__init__(self)
self.callback = func
self.Start(wait); # wait .1 second (.001 second doesn't work. why?)
def Notify(self):
self.Stop();
apply(self.callback, ());
class AppFrame(wxFrame):
def __init__(self, parent, id, title):
wxFrame.__init__(self, parent, id, title, wxPyDefaultPosition,
wxSize(650, 250))
# if the window manager closes the window:
EVT_CLOSE(self, self.OnCloseWindow);
# Now Create the menu bar and items
self.mainmenu = wxMenuBar()
menu = wxMenu()
menu.Append(209, 'E&xit', 'Enough of this already!')
EVT_MENU(self, 209, self.OnFileExit)
self.mainmenu.Append(menu, '&File')
menu = wxMenu()
menu.Append(210, '&Refresh', 'Refresh headlines')
EVT_MENU(self, 210, self.OnViewRefresh)
menu.Append(211, '&Slashdot Index', 'View Slashdot index')
EVT_MENU(self, 211, self.OnViewIndex)
menu.Append(212, 'Selected &Article', 'View selected article')
EVT_MENU(self, 212, self.OnViewArticle)
self.mainmenu.Append(menu, '&View')
menu = wxMenu()
menu.Append(220, '&Internal', 'Use internal text browser',TRUE)
menu.Check(220, true)
self.UseInternal = 1;
EVT_MENU(self, 220, self.OnBrowserInternal)
menu.Append(222, '&Settings...', 'External browser Settings')
EVT_MENU(self, 222, self.OnBrowserSettings)
self.mainmenu.Append(menu, '&Browser')
menu = wxMenu()
menu.Append(230, '&About', 'Some documentation');
EVT_MENU(self, 230, self.OnAbout)
self.mainmenu.Append(menu, '&Help')
self.SetMenuBar(self.mainmenu)
if wxPlatform == '__WXGTK__':
# I like lynx. Also Netscape 4.5 doesn't react to my cmdline opts
self.BrowserSettings = "xterm -e lynx %s &"
elif wxPlatform == '__WXMSW__':
# netscape 4.x likes to hang out here...
self.BrowserSettings = '\\progra~1\\Netscape\\Communicator\\Program\\netscape.exe %s'
else:
# a wild guess...
self.BrowserSettings = 'netscape %s'
# A status bar to tell people what's happening
self.sb = AppStatusBar(self)
self.SetStatusBar(self.sb)
self.list = wxListCtrl(self, 1100)
self.list.SetSingleStyle(wxLC_REPORT)
self.list.InsertColumn(0, 'Subject')
self.list.InsertColumn(1, 'Date')
self.list.InsertColumn(2, 'Posted by')
self.list.InsertColumn(3, 'Comments')
self.list.SetColumnWidth(0, 300)
self.list.SetColumnWidth(1, 150)
self.list.SetColumnWidth(2, 100)
self.list.SetColumnWidth(3, 100)
EVT_LIST_ITEM_SELECTED(self, 1100, self.OnItemSelected)
EVT_LEFT_DCLICK(self.list, self.OnLeftDClick)
self.logprint("Connecting to slashdot... Please wait.")
# wxYield doesn't yet work here. That's why we use a timer
# to make sure that we see some GUI stuff before the slashdot
# file is transfered.
self.timer = QuickTimer(self.DoRefresh, 1000)
def logprint(self, x):
self.sb.logprint(x)
def OnFileExit(self, event):
self.Destroy()
def DoRefresh(self):
f = RetrieveAsFile('slashdot.org','/ultramode.txt',self.sb.logprint)
art_list = ParseSlashdot(f)
self.list.DeleteAllItems()
self.url = []
self.current = -1
i = 0;
for article in art_list:
self.list.InsertStringItem(i, article[0])
self.list.SetStringItem(i, 1, article[2])
self.list.SetStringItem(i, 2, article[3])
self.list.SetStringItem(i, 3, article[6])
self.url.append(article[1])
i = i + 1
self.logprint("File retrieved OK.")
def OnViewRefresh(self, event):
self.logprint("Connecting to slashdot... Please wait.");
wxYield()
self.DoRefresh()
def DoViewIndex(self):
if self.UseInternal:
self.view = HTMLTextView(self, -1, 'slashdot.org',
'http://slashdot.org')
self.view.Show(true)
else:
self.logprint(self.BrowserSettings % ('http://slashdot.org'))
#os.system(self.BrowserSettings % ('http://slashdot.org'))
wxExecute(self.BrowserSettings % ('http://slashdot.org'))
self.logprint("OK")
def OnViewIndex(self, event):
self.logprint("Starting browser... Please wait.")
wxYield()
self.DoViewIndex()
def DoViewArticle(self):
if self.current<0: return
url = self.url[self.current]
if self.UseInternal:
self.view = HTMLTextView(self, -1, url, url)
self.view.Show(true)
else:
self.logprint(self.BrowserSettings % (url))
os.system(self.BrowserSettings % (url))
self.logprint("OK")
def OnViewArticle(self, event):
self.logprint("Starting browser... Please wait.")
wxYield()
self.DoViewArticle()
def OnBrowserInternal(self, event):
if self.mainmenu.Checked(220):
self.UseInternal = 1
else:
self.UseInternal = 0
def OnBrowserSettings(self, event):
dlg = wxTextEntryDialog(self, "Enter command to view URL.\nUse %s as a placeholder for the URL.", "", self.BrowserSettings);
if dlg.ShowModal() == wxID_OK:
self.BrowserSettings = dlg.GetValue()
def OnAbout(self, event):
dlg = wxMessageDialog(self, __doc__, "wxSlash", wxOK | wxICON_INFORMATION)
dlg.ShowModal()
def OnItemSelected(self, event):
self.current = event.m_itemIndex
self.logprint("URL: %s" % (self.url[self.current]))
def OnLeftDClick(self, event):
(x,y) = event.Position();
# Actually, we should convert x,y to logical coords using
# a dc, but only for a wxScrolledWindow widget.
# Now wxGTK derives wxListCtrl from wxScrolledWindow,
# and wxMSW from wxControl... So that doesn't work.
#dc = wxClientDC(self.list)
##self.list.PrepareDC(dc)
#x = dc.DeviceToLogicalX( event.GetX() )
#y = dc.DeviceToLogicalY( event.GetY() )
id = self.list.HitTest(wxPoint(x,y))
#print "Double click at %d %d" % (x,y), id
# Okay, we got a double click. Let's assume it's the current selection
wxYield()
self.OnViewArticle(event)
def OnCloseWindow(self, event):
self.Destroy()
#---------------------------------------------------------------------------
# if running standalone
if __name__ == '__main__':
class MyApp(wxApp):
def OnInit(self):
frame = AppFrame(NULL, -1, "Slashdot Breaking News")
frame.Show(true)
self.SetTopWindow(frame)
return true
app = MyApp(0)
app.MainLoop()
#---------------------------------------------------------------------------
# if running as part of the Demo Framework...
def runTest(frame, nb, log):
win = AppFrame(NULL, -1, "Slashdot Breaking News")
frame.otherWin = win
win.Show(true)
overview = __doc__
#----------------------------------------------------------------------------

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import string
from wxPython.wx import *
try:
from xml.parsers import pyexpat
haveXML = true
except ImportError:
haveXML = false
#----------------------------------------------------------------------
if not haveXML:
def runTest(frame, nb, log):
dlg = wxMessageDialog(frame, 'This demo requires the XML package. See http://www.python.org/sigs/xml-sig/',
'Sorry', wxOK | wxICON_INFORMATION)
dlg.ShowModal()
dlg.Destroy()
else:
class XMLTree(wxTreeCtrl):
def __init__(self, parent, ID):
wxTreeCtrl.__init__(self, parent, ID)
self.nodeStack = [self.AddRoot("Root")]
# Define a handler for start element events
def StartElement(self, name, attrs ):
self.nodeStack.append(self.AppendItem(self.nodeStack[-1], name))
def EndElement(self, name ):
self.nodeStack = self.nodeStack[:-1]
def CharacterData(self, data ):
if string.strip(data):
self.AppendItem(self.nodeStack[-1], data)
def LoadTree(self, filename):
# Create a parser
Parser = pyexpat.ParserCreate()
# Tell the parser what the start element handler is
Parser.StartElementHandler = self.StartElement
Parser.EndElementHandler = self.EndElement
Parser.CharacterDataHandler = self.CharacterData
# Parse the XML File
ParserStatus = Parser.Parse(open(filename,'r').read(), 1)
def runTest(frame, nb, log):
win = XMLTree(nb, -1)
win.LoadTree("paper.xml")
return win
#----------------------------------------------------------------------
overview = """\
"""

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#!/usr/bin/env python
import Main
Main.main()

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#!/usr/bin/env python
#---------------------------------------------------------------------------
"""
This demo attempts to override the C++ MainLoop and implement it
in Python. This is not part of the demo framework.
THIS FEATURE IS STILL EXPERIMENTAL...
"""
from wxPython.wx import *
import time
#---------------------------------------------------------------------------
class MyFrame(wxFrame):
def __init__(self, parent, id, title):
wxFrame.__init__(self, parent, id, title,
wxPoint(100, 100), wxSize(160, 150))
EVT_SIZE(self, self.OnSize)
EVT_MOVE(self, self.OnMove)
EVT_CLOSE(self, self.OnCloseWindow)
EVT_IDLE(self, self.OnIdle)
self.count = 0
panel = wxPanel(self, -1)
wxStaticText(panel, -1, "Size:",
wxDLG_PNT(panel, wxPoint(4, 4)), wxDefaultSize)
wxStaticText(panel, -1, "Pos:",
wxDLG_PNT(panel, wxPoint(4, 16)), wxDefaultSize)
wxStaticText(panel, -1, "Idle:",
wxDLG_PNT(panel, wxPoint(4, 28)), wxDefaultSize)
self.sizeCtrl = wxTextCtrl(panel, -1, "",
wxDLG_PNT(panel, wxPoint(24, 4)),
wxDLG_SZE(panel, wxSize(36, -1)),
wxTE_READONLY)
self.posCtrl = wxTextCtrl(panel, -1, "",
wxDLG_PNT(panel, wxPoint(24, 16)),
wxDLG_SZE(panel, wxSize(36, -1)),
wxTE_READONLY)
self.idleCtrl = wxTextCtrl(panel, -1, "",
wxDLG_PNT(panel, wxPoint(24, 28)),
wxDLG_SZE(panel, wxSize(36, -1)),
wxTE_READONLY)
def OnCloseWindow(self, event):
app.keepGoing = false
self.Destroy()
def OnIdle(self, event):
self.idleCtrl.SetValue(str(self.count))
self.count = self.count + 1
def OnSize(self, event):
size = event.GetSize()
self.sizeCtrl.SetValue("%s, %s" % (size.width, size.height))
event.Skip()
def OnMove(self, event):
pos = event.GetPosition()
self.posCtrl.SetValue("%s, %s" % (pos.x, pos.y))
#---------------------------------------------------------------------------
class MyApp(wxApp):
def MainLoop(self):
# This outer loop determines when to exit the application, for
# this example we let the main frame reset this flag when it
# closes.
while self.keepGoing:
# At this point in the outer loop you could do whatever you
# implemented your own MainLoop for. It should be quick and
# non-blocking, otherwise your GUI will freeze. For example,
# call Fnorb's reactor.do_one_event(0), etc.
# call_your_code_here()
# This inner loop will process any GUI events until there
# are no more waiting.
while self.Pending():
self.Dispatch()
# Send idle events to idle handlers. You may want to throtle
# this back a bit so there is not too much CPU time spent in
# the idle handlers. For this example, I'll just snooze a
# little...
time.sleep(0.25)
self.ProcessIdle()
def OnInit(self):
frame = MyFrame(NULL, -1, "This is a test")
frame.Show(true)
self.SetTopWindow(frame)
self.keepGoing = true
return true
app = MyApp(0)
app.MainLoop()

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"""Hangman.py, a simple wxPython game, inspired by the
old bsd game by Ken Arnold.
From the original man page:
In hangman, the computer picks a word from the on-line
word list and you must try to guess it. The computer
keeps track of which letters have been guessed and how
many wrong guesses you have made on the screen in a
graphic fashion.
That says it all, doesn't it?
Have fun with it,
Harm van der Heijden (H.v.d.Heijden@phys.tue.nl)"""
import random,re,string
from wxPython.wx import *
class WordFetcher:
builtin_words = ' albatros banana electrometer eggshell'
def __init__(self, filename, min_length = 5):
self.min_length = min_length
print "Trying to open file %s" % (filename,)
try:
f = open(filename, "r")
except:
print "Couldn't open dictionary file %s, using builtins" % (filename,)
self.words = self.builtin_words
self.filename = None
return
self.words = f.read()
self.filename = filename
print "Got %d bytes." % (len(self.words),)
def SetMinLength(min_length):
self.min_length = min_length
def Get(self):
reg = re.compile('\s+([a-zA-Z]+)\s+')
n = 50 # safety valve; maximum number of tries to find a suitable word
while n:
index = int(random.random()*len(self.words))
m = reg.search(self.words[index:])
if m and len(m.groups()[0]) >= self.min_length: break
n = n - 1
if n: return string.lower(m.groups()[0])
return "error"
def stdprint(x):
print x
class URLWordFetcher(WordFetcher):
def __init__(self, url):
self.OpenURL(url)
WordFetcher.__init__(self, "hangman_dict.txt")
def logprint(self,x):
print x
def RetrieveAsFile(self, host, path=''):
from httplib import HTTP
try:
h = HTTP(host)
except:
self.logprint("Failed to create HTTP connection to %s... is the network available?" % (host))
return None
h.putrequest('GET',path)
h.putheader('Accept','text/html')
h.putheader('Accept','text/plain')
h.endheaders()
errcode, errmsg, headers = h.getreply()
if errcode != 200:
self.logprint("HTTP error code %d: %s" % (errcode, errmsg))
return None
f = h.getfile()
return f
def OpenURL(self,url):
from htmllib import HTMLParser
import formatter
self.url = url
m = re.match('http://([^/]+)(/\S*)\s*', url)
if m:
host = m.groups()[0]
path = m.groups()[1]
else:
m = re.match('http://(\S+)\s*', url)
if not m:
# Invalid URL
self.logprint("Invalid or unsupported URL: %s" % (url))
return
host = m.groups()[0]
path = ''
f = self.RetrieveAsFile(host,path)
if not f:
self.logprint("Could not open %s" % (url))
return
self.logprint("Receiving data...")
data = f.read()
tmp = open('hangman_dict.txt','w')
fmt = formatter.AbstractFormatter(formatter.DumbWriter(tmp))
p = HTMLParser(fmt)
self.logprint("Parsing data...")
p.feed(data)
p.close()
tmp.close()
class HangmanWnd(wxWindow):
def __init__(self, parent, id, pos=wxDefaultPosition, size=wxDefaultSize):
wxWindow.__init__(self, parent, id, pos, size)
self.SetBackgroundColour(wxNamedColour('white'))
if wxPlatform == '__WXGTK__':
self.font = wxFont(12, wxMODERN, wxNORMAL, wxNORMAL)
else:
self.font = wxFont(10, wxMODERN, wxNORMAL, wxNORMAL)
self.SetFocus()
def StartGame(self, word):
self.word = word
self.guess = []
self.tries = 0
self.misses = 0
self.Draw()
def EndGame(self):
self.misses = 7;
self.guess = map(chr, range(ord('a'),ord('z')+1))
self.Draw()
def HandleKey(self, key):
self.message = ""
if self.guess.count(key):
self.message = 'Already guessed %s' % (key,)
return 0
self.guess.append(key)
self.guess.sort()
self.tries = self.tries+1
if not key in self.word:
self.misses = self.misses+1
if self.misses == 7:
self.EndGame()
return 1
has_won = 1
for letter in self.word:
if not self.guess.count(letter):
has_won = 0
break
if has_won:
self.Draw()
return 2
self.Draw()
return 0
def Draw(self, dc = None):
if not dc:
dc = wxClientDC(self)
dc.SetFont(self.font)
dc.Clear()
(x,y) = self.GetSizeTuple()
x1 = x-200; y1 = 20
for letter in self.word:
if self.guess.count(letter):
dc.DrawText(letter, x1, y1)
else:
dc.DrawText('.', x1, y1)
x1 = x1 + 10
x1 = x-200
dc.DrawText("tries %d misses %d" % (self.tries,self.misses),x1,50)
guesses = ""
for letter in self.guess:
guesses = guesses + letter
dc.DrawText("guessed:", x1, 70)
dc.DrawText(guesses[:13], x1+80, 70)
dc.DrawText(guesses[13:], x1+80, 90)
dc.SetUserScale(x/1000.0, y/1000.0)
self.DrawVictim(dc)
def DrawVictim(self, dc):
dc.SetPen(wxPen(wxNamedColour('black'), 20))
dc.DrawLines([(10, 980), (10,900), (700,900), (700,940), (720,940),
(720,980), (900,980)])
dc.DrawLines([(100,900), (100, 100), (300,100)])
dc.DrawLine(100,200,200,100)
if ( self.misses == 0 ): return
dc.SetPen(wxPen(wxNamedColour('blue'), 10))
dc.DrawLine(300,100,300,200)
if ( self.misses == 1 ): return
dc.DrawEllipse(250,200,100,100)
if ( self.misses == 2 ): return
dc.DrawLine(300,300,300,600)
if ( self.misses == 3) : return
dc.DrawLine(300,300,250,550)
if ( self.misses == 4) : return
dc.DrawLine(300,300,350,550)
if ( self.misses == 5) : return
dc.DrawLine(300,600,350,850)
if ( self.misses == 6) : return
dc.DrawLine(300,600,250,850)
def OnPaint(self, event):
dc = wxPaintDC(self)
self.Draw(dc)
class HangmanDemo(HangmanWnd):
def __init__(self, wf, parent, id, pos, size):
HangmanWnd.__init__(self, parent, id, pos, size)
self.StartGame("dummy")
self.start_new = 1
self.wf = wf
self.delay = 500
self.timer = self.PlayTimer(self.MakeMove)
def MakeMove(self):
self.timer.Stop()
if self.start_new:
self.StartGame(self.wf.Get())
self.start_new = 0
self.left = list('aaaabcdeeeeefghiiiiijklmnnnoooopqrssssttttuuuuvwxyz')
else:
key = self.left[int(random.random()*len(self.left))]
while self.left.count(key): self.left.remove(key)
self.start_new = self.HandleKey(key)
self.timer.Start(self.delay)
def Stop(self):
self.timer.Stop()
class PlayTimer(wxTimer):
def __init__(self,func):
wxTimer.__init__(self)
self.func = func
self.Start(1000)
def Notify(self):
apply(self.func, ())
class HangmanDemoFrame(wxFrame):
def __init__(self, wf, parent, id, pos, size):
wxFrame.__init__(self, parent, id, "Hangman demo", pos, size)
self.demo = HangmanDemo(wf, self, -1, wxDefaultPosition, wxDefaultSize)
def OnCloseWindow(self, event):
self.demo.timer.Stop()
self.Destroy()
class AboutBox(wxDialog):
def __init__(self, parent,wf):
wxDialog.__init__(self, parent, -1, "About Hangman", wxDefaultPosition, wxSize(350,450))
self.wnd = HangmanDemo(wf, self, -1, wxPoint(1,1), wxSize(350,150))
self.static = wxStaticText(self, -1, __doc__, wxPoint(1,160), wxSize(350, 250))
self.button = wxButton(self, 2001, "OK", wxPoint(150,420), wxSize(50,-1))
EVT_BUTTON(self, 2001, self.OnOK)
def OnOK(self, event):
self.wnd.Stop()
self.EndModal(wxID_OK)
class MyFrame(wxFrame):
def __init__(self, parent, wf):
self.wf = wf
wxFrame.__init__(self, parent, -1, "hangman", wxDefaultPosition, wxSize(400,300))
self.wnd = HangmanWnd(self, -1)
menu = wxMenu()
menu.Append(1001, "New")
menu.Append(1002, "End")
menu.AppendSeparator()
menu.Append(1003, "Reset")
menu.Append(1004, "Demo...")
menu.AppendSeparator()
menu.Append(1005, "Exit")
menubar = wxMenuBar()
menubar.Append(menu, "Game")
menu = wxMenu()
#menu.Append(1010, "Internal", "Use internal dictionary", TRUE)
menu.Append(1011, "ASCII File...")
urls = [ 'wxPython home', 'http://alldunn.com/wxPython/main.html',
'slashdot.org', 'http://slashdot.org/',
'cnn.com', 'http://cnn.com',
'The New York Times', 'http://www.nytimes.com',
'De Volkskrant', 'http://www.volkskrant.nl/frameless/25000006.html',
'Gnu GPL', 'http://www.fsf.org/copyleft/gpl.html',
'Bijbel: Genesis', 'http://www.coas.com/bijbel/gn1.htm']
urlmenu = wxMenu()
for item in range(0,len(urls),2):
urlmenu.Append(1020+item/2, urls[item], urls[item+1])
urlmenu.Append(1080, 'Other...', 'Enter an URL')
menu.AppendMenu(1012, 'URL', urlmenu, 'Use a webpage')
menu.Append(1013, 'Dump', 'Write contents to stdout')
menubar.Append(menu, "Dictionary")
self.urls = urls
self.urloffset = 1020
menu = wxMenu()
menu.Append(1090, "About...")
menubar.Append(menu, "Help")
self.SetMenuBar(menubar)
self.CreateStatusBar(2)
EVT_MENU(self, 1001, self.OnGameNew)
EVT_MENU(self, 1002, self.OnGameEnd)
EVT_MENU(self, 1003, self.OnGameReset)
EVT_MENU(self, 1004, self.OnGameDemo)
EVT_MENU(self, 1005, self.OnWindowClose)
EVT_MENU(self, 1011, self.OnDictFile)
EVT_MENU_RANGE(self, 1020, 1020+len(urls)/2, self.OnDictURL)
EVT_MENU(self, 1080, self.OnDictURLSel)
EVT_MENU(self, 1013, self.OnDictDump)
EVT_MENU(self, 1090, self.OnHelpAbout)
EVT_CHAR(self.wnd, self.OnChar)
self.OnGameReset()
def OnGameNew(self, event):
word = self.wf.Get()
self.in_progress = 1
self.SetStatusText("",0)
self.wnd.StartGame(word)
def OnGameEnd(self, event):
self.UpdateAverages(0)
self.in_progress = 0
self.SetStatusText("",0)
self.wnd.EndGame()
def OnGameReset(self, event=None):
self.played = 0
self.won = 0
self.history = []
self.average = 0.0
self.OnGameNew(None)
def OnGameDemo(self, event):
frame = HangmanDemoFrame(self.wf, self, -1, wxDefaultPosition, self.GetSize())
frame.Show(TRUE)
def OnDictFile(self, event):
fd = wxFileDialog(self)
if (self.wf.filename):
fd.SetFilename(self.wf.filename)
if fd.ShowModal() == wxID_OK:
file = fd.GetPath()
self.wf = WordFetcher(file)
def OnDictURL(self, event):
item = (event.GetId() - self.urloffset)*2
print "Trying to open %s at %s" % (self.urls[item], self.urls[item+1])
self.wf = URLWordFetcher(self.urls[item+1])
def OnDictURLSel(self, event):
msg = wxTextEntryDialog(self, "Enter the URL of the dictionary document", "Enter URL")
if msg.ShowModal() == wxID_OK:
url = msg.GetValue()
self.wf = URLWordFetcher(url)
def OnDictDump(self, event):
print self.wf.words
def OnHelpAbout(self, event):
about = AboutBox(self, self.wf)
about.ShowModal()
about.wnd.Stop() # that damn timer won't stop!
def UpdateAverages(self, has_won):
if has_won:
self.won = self.won + 1
self.played = self.played+1
self.history.append(self.wnd.misses) # ugly
total = 0.0
for m in self.history:
total = total + m
self.average = float(total/len(self.history))
def OnChar(self, event):
if not self.in_progress:
#print "new"
self.OnGameNew(None)
return
key = event.KeyCode();
#print key
if key >= ord('A') and key <= ord('Z'):
key = key + ord('a') - ord('A')
key = chr(key)
if key < 'a' or key > 'z':
event.Skip()
return
res = self.wnd.HandleKey(key)
if res == 0:
self.SetStatusText(self.wnd.message)
elif res == 1:
self.UpdateAverages(0)
self.SetStatusText("Too bad, you're dead!",0)
self.in_progress = 0
elif res == 2:
self.in_progress = 0
self.UpdateAverages(1)
self.SetStatusText("Congratulations!",0)
if self.played:
percent = (100.*self.won)/self.played
else:
percent = 0.0
self.SetStatusText("p %d, w %d (%g %%), av %g" % (self.played,self.won, percent, self.average),1)
def OnWindowClose(self, event):
self.Destroy()
class MyApp(wxApp):
def OnInit(self):
if wxPlatform == '__WXGTK__':
defaultfile = "/usr/share/games/hangman-words"
elif wxPlatform == '__WXMSW__':
defaultfile = "c:\\windows\\hardware.txt"
else:
defaultfile = ""
wf = WordFetcher(defaultfile)
frame = MyFrame(NULL, wf)
self.SetTopWindow(frame)
frame.Show(TRUE)
return TRUE
if __name__ == '__main__':
app = MyApp(0)
app.MainLoop()
#----------------------------------------------------------------------
overview = __doc__
def runTest(frame, nb, log):
if wxPlatform == '__WXGTK__' or wxPlatform == '__WXMOTIF__':
defaultfile = "/usr/share/games/hangman-words"
elif wxPlatform == '__WXMSW__':
defaultfile = "c:\\windows\\hardware.txt"
else:
defaultfile = ""
wf = WordFetcher(defaultfile)
win = MyFrame(frame, wf)
frame.otherWin = win
win.Show(true)
#----------------------------------------------------------------------

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from wxPython.wx import *
from wxPython.html import *
import sys
default_page = """
<H1>HTML Viewer</H1>Please select <I>File->Open</I>
to open a HTML file, or edit this page in the
text control below and select <I>File->Update</I>
<P>
The python source can be seen
<a href="%s">here</a>.
""" % (sys.argv[0], )
class HtmlViewer(wxFrame):
def __init__(self, parent, id, title, pos = wxDefaultPosition, size = wxSize(400,400)):
wxFrame.__init__(self, parent, id, title, pos, size)
self.CreateStatusBar(1)
split = wxSplitterWindow(self, -1)
self.html = wxHtmlWindow(split)
self.html.SetRelatedFrame(self, "HTML Viewer: \%s")
self.html.SetRelatedStatusBar(0)
self.txt = wxTextCtrl(split, -1, default_page,
wxDefaultPosition, wxDefaultSize,
wxTE_MULTILINE)
split.SplitHorizontally(self.html, self.txt, size.y/2)
mbar = wxMenuBar()
menu = wxMenu()
menu.Append(1500, "Open")
menu.Append(1501, "Reset")
menu.Append(1502, "Update HTML")
menu.AppendSeparator()
menu.Append(1503, "Exit")
mbar.Append(menu, "File")
menu = wxMenu()
menu.Append(1510, "Back")
menu.Append(1511, "Forward")
mbar.Append(menu, "Go")
self.SetMenuBar(mbar)
self.filename = ""
EVT_MENU(self, 1500, self.OnFileOpen)
EVT_MENU(self, 1501, self.OnFileReset)
EVT_MENU(self, 1502, self.OnFileUpdate)
EVT_MENU(self, 1503, self.OnClose)
EVT_MENU(self, 1510, self.OnGoBack)
EVT_MENU(self, 1511, self.OnGoForward)
# A default opening text
self.html.SetPage( default_page )
def OnFileOpen(self, event):
dlg = wxFileDialog(NULL, "Open file")
if dlg.ShowModal() == wxID_OK:
self.filename = dlg.GetPath()
self.html.LoadPage(self.filename)
def OnFileReset(self, event):
self.html.SetPage( default_page )
self.txt.SetValue( default_page )
def OnFileUpdate(self, event):
self.html.SetPage( self.txt.GetValue() )
def OnGoBack(self, event):
self.html.HistoryBack()
def OnGoForward(self, event):
self.html.HistoryForward()
def OnClose(self,event):
self.Destroy()
class MyApp(wxApp):
def OnInit(self):
frame = HtmlViewer(NULL, -1, "HTML Viewer")
frame.Show(TRUE)
self.SetTopWindow(frame)
return TRUE
wxImage_AddHandler(wxPNGHandler())
wxImage_AddHandler(wxGIFHandler())
wxImage_AddHandler(wxJPEGHandler())
theApp = MyApp(0)
theApp.MainLoop()

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from wxPython.wx import *
from wxPython.html import *
import sys,string
# A bunch of simple widgets, all somehow derived from wxWindow
class Widget1(wxWindow):
def __init__(self, parent, param):
wxWindow.__init__(self, parent, -1)
self.text = wxTextCtrl(self, -1, param['param_str'], wxPoint(5,5),
wxSize(200,150), wxTE_MULTILINE)
but = wxButton(self, 1001, "Click me", wxPoint(50,160), wxSize(100,30))
EVT_BUTTON(self, 1001, self.OnButton)
self.SetSize(wxSize(210,200))
def OnButton(self, event):
self.text.AppendText( "Click!\n" )
class Widget2(wxButton):
def __init__(self, parent, param):
wxButton.__init__(self, parent, int(param['id']), param['title'])
class Widget3(wxTextCtrl):
def __init__(self, parent, param):
wxTextCtrl.__init__(self, parent, -1, "No clicks")
self.clicked = 0;
EVT_BUTTON(parent, int(param['button_id']), self.OnButton)
def OnButton(self, event):
self.clicked = self.clicked + 1
self.SetValue("%d clicks" % (self.clicked,))
# make the widgets known in the widget module (aka htmlc)
widget.Widget1 = Widget1
widget.Widget2 = Widget2
widget.Widget3 = Widget3
# our default page
default_page = """
<H2>wxPython widgets go HTML</H2>
A bunch of wxPython widgets are scattered on this HTML page.
Here's one:
<center><python class="Widget1" greeting="Hello World"></center>
<hr>
Here's another:
<center><python class="Widget2" float=70 id=1002 title="Button A"></center>
It should always take up 70% of the page width.
<p>And then there's this, listening to button A:
<python class="Widget3" button_id=1002></p>
"""
# our explanation
apology = """
For some bizarre reason, it takes forever and a day to display the
widgets if they are constructed in the frame's constructor. This
only happens in MSW, wxGTK works fine.
<p>Select <I>File->Show it</I> to draw the widgets."""
default_page = default_page + "The HTML code for this page is\n <pre>" + default_page + "</pre>"
class HtmlViewer(wxFrame):
def __init__(self, parent, id, title, pos = wxDefaultPosition, size = wxSize(400,400)):
wxFrame.__init__(self, parent, id, title, pos, size)
self.CreateStatusBar(1)
self.html = wxHtmlWindow(self)
self.html.SetRelatedFrame(self, "HTML Viewer: \%s")
self.html.SetRelatedStatusBar(0)
mbar = wxMenuBar()
menu = wxMenu()
menu.Append(1500, "Show it")
menu.Append(1503, "Exit")
mbar.Append(menu, "File")
EVT_MENU(self, 1500, self.OnShowIt)
EVT_MENU(self, 1503, self.OnClose)
self.SetMenuBar(mbar)
# change apology below to default_page, if you dare!
self.html.SetPage( default_page )
def OnClose(self,event):
self.Destroy()
def OnShowIt(self,event):
self.html.SetPage( default_page )
# now quickly remove the menu option, to hide that
# other bug; namely that widgets aren't removed when the
# HTML page is.
self.GetMenuBar().Enable(1500, FALSE)
class MyApp(wxApp):
def OnInit(self):
frame = HtmlViewer(NULL, -1, "HTML Viewer")
frame.Show(TRUE)
self.SetTopWindow(frame)
return TRUE
wxImage_AddHandler(wxPNGHandler())
wxImage_AddHandler(wxGIFHandler())
wxImage_AddHandler(wxJPEGHandler())
theApp = MyApp(0)
theApp.MainLoop()

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<?xml version="1.0"?>
<!DOCTYPE gcapaper SYSTEM "gcapap-X.dtd" [
<!ENTITY footprint SYSTEM "footprint.tif" NDATA tiff >
<!ENTITY footprint SYSTEM "footprint.eps" NDATA eps >
<!ENTITY shoes SYSTEM "shoes.tif" NDATA tiff >
<!ENTITY super1 "&#90;">
]>
<gcapaper><front><title>Using SGML to make footprints in the sand
</title><keyword>footprints</keyword><keyword>sand</keyword>
<author><fname>Jane</fname><surname>Doe</surname>
<jobtitle>Empress</jobtitle>
<address><affil>Universe Corporation</affil>
<aline>1 Main Street</aline>
<city>Perfect City</city>
<province>Dorado</province>
<cntry>Neutral</cntry><postcode>999999</postcode>
<phone>+55 555 555 5550</phone>
<fax>+55 555 555 5555</fax>
<email>jane@universe.com</email>
<web>www.universe.com</web>
</address>
<bio><para>Jane Doe is the Empress of the Universe <bibref refloc="jd000"/>, a position to which she has always aspired.</para></bio>
</author>
<author><fname>Fred</fname><surname>Bloggs</surname>
<jobtitle>Designer</jobtitle>
<address><affil>Fred (The Shoe) Bloggs Ltd</affil>
<aline>1 Shoe Lane</aline>
<city>Perfect City</city>
<province>Dorado</province>
<cntry>Neutral</cntry><postcode>999999</postcode>
<phone>+55 555 555 1122</phone>
<fax>+55 555 555 1133</fax>
<email>fred@shoebloggs.com</email>
<web>www.shoebloggs.com</web></address>
<bio><para>Fred has always wanted to create the perfect shoe for making footprints in the sand. Now with SGML and XML, he has been able to document his design.</para></bio>
</author>
<abstract>
<para><keyword>ease</keyword><keyword>documentation</keyword>It's not easy being an Empress of the Universe (<a href="http://www.universe.com"/>), but with the right pair of shoes and the right documentation on how to make footprints in the sand of life, it's easier than it was. Since the introduction of <acronym.grp><acronym>SGML</acronym><expansion>Standard Generalized Markup Language</expansion></acronym.grp> and <acronym.grp><acronym>XML</acronym><expansion>Extensible Markup Language</expansion></acronym.grp> it is now possible to identify and manage the key bits of information on this process.</para>
</abstract>
</front>
<body><section id="jd001"><title>Introduction</title>
<para><keyword>documentation</keyword>Since its inception, the Universe has always had sand, now it has an Empress, a good shoe design, and <acronym>SGML</acronym> / <acronym>XML</acronym> documentation. The time is now ripe for making <highlight style="ital">footprints</highlight> in the sand.</para></section>
<section id="jd002"><title>Footprints - truly a push technology</title><keyword>push</keyword>
<para>One could safely say that making footprints is a push technology. This is even more true when the footprint maker is the Empress of the Universe. </para>
<subsec1 id="jd003"><title>The sands of time</title><keyword>time</keyword>
<para>The 1<super>st</super> think to remember about the Universe is the time/space continuum to which it conforms. This then confuses the sands of time to be something more like the sands of time/space continuum because if you wait on those sands long enough they may be somewhere else - not necessarily because of the time/space continuum but because the winds will <highlight style="ital">push</highlight> them down the beach.</para></subsec1>
<subsec1 id="jd004"><title>Identifying the footprints</title>
<para>In order to truly understand who has walked on the sands and left the footprints, it is important to identify the <keyword>characteristics</keyword>characteristics of the footprint. In the graphic <xref refloc="jd005" type="title"/>, we can see the footprints are large, well shaped, and evenly distributed from front to back and side to side.</para>
<figure id="jd005"><title>Footprint in Sand</title><caption><para>Note the evenly distributed shape and indention</para></caption><graphic figname="footprint"/></figure>
<para>This footprint begs the question, 'What kind of remarkable <keyword>shoe</keyword>shoe could make such a wonderful footprint?'</para>
<table id="t1">
<tgroup cols="2">
<thead><row><entry>Shoe Type</entry><entry>Remarkability Rating</entry></row></thead>
<tbody><row><entry>Acme Shoe</entry><entry>Unremarkable</entry></row>
<row><entry>Budget Shoe</entry><entry>Not worth remarking on</entry></row>
<row><entry>Super Duper Shoe</entry><entry>Absolutely Remarkable</entry></row></tbody>
</tgroup></table></subsec1>
<subsec1 id="jd006"><title>The Shoe What Made the Footprint</title>
<para>The remarkable footprint is made by a combination of a terrific shoe worn on a fantastic foot propelled by a one-of-a-kind Empress. As can be seen in Figure <xref refloc="jd007" type="number"/>, the shoe is worthy of an Empress.</para>
<figure id="jd007"><title>The Terrific Shoe</title><graphic figname="shoes"/></figure>
<para>The design goals of the shoe were:
<randlist style = "bulleted">
<li><para>to minimize time-consuming manual tasks such as shoelace tying;</para></li>
<li><para>to allow different decorations to be placed on the toes; and</para></li>
<li><para>to enforce a good arch.</para></li></randlist></para></subsec1></section>
<section id="jd008"><title>Documenting the Shoe</title>
<para>Documenting the shoe was the best part for Fred Bloggs. His superior design could be captured for all time in a neutrally-encoded, content-specific manner. An excerpt from his DTD gives an insight into the type of information he captured in his documentation.</para>
<code.block>&lt;!DOCTYPE shoedoc [
&lt;!ELEMENT shoedoc - - (design, mfg, care, recycle) >
&lt;!ATTLIST shoedoc designer CDATA #REQUIRED
date CDATA #REQUIRED>
&lt;!ELEMENT design - - (specs, desc) >
etc.
</code.block>
<para>An excerpt from the documentation also gives us insights.</para>
<code.block><![CDATA[<design>
<specs sizerange="4-12" widthrange="aa-d" color="navy black white red taupe">
<para>The arch shall be high. The toe shall be narrow, but not pinch. The heel shall not come off in grates. Sand shall not get in.</para></specs>]]>
</code.block>
</section></body>
<rear><acknowl>
<para>The authors wish to express our thanks to the Universe for being there and to gravity for holding the sand down long enough to see the footprints.</para></acknowl>
<bibliog>
<bibitem id="jd000"><bib>Barrett 00</bib><pub>Barrett, B., Being Empress Made Easy, Galaxy Division of Universal Publishers. 0000</pub></bibitem></bibliog></rear></gcapaper>

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"""
Hello, and welcome to this test of the wxTreeItemData
class.
The wxTreeItemData class can be used to associate a python
object with a wxTreeCtrl item. In this sample, its use is
demonstrated via a tree control that shows the contents of a
python namespace according to the standard dir()
command. Every item in the tree has its label taken from the
dir() output, and 'behind it' a reference to the python
object is stored in a wxTreeItemData object.
As you may have guessed by now, this sample automatically
displays '__doc__' strings if the selected python object
happens to have one. Please expand the pyTree object to
learn more about the implementation.
Version 1.0, April 4 1999.
Harm van der Heijden (H.v.d.Heijden@phys.tue.nl)
P.S. Check out the string module. It's imported in this
sample not because it's used, but because it's so
beautifully documented...
"""
from wxPython import wx
import string # Don't use it, but it's fun expanding :-)
#----------------------------------------------------------------------
def _getindent(line):
"""Returns the indentation level of the given line."""
indent = 0
for c in line:
if c == ' ': indent = indent + 1
elif c == '\t': indent = indent + 8
else: break
return indent
def _sourcefinder(func):
"""Given a func_code object, this function tries to find and return
the python source code of the function."""
try:
f = open(func.co_filename,"r")
except:
return "(could not open file %s)" % (func.co_filename,)
for i in range(func.co_firstlineno):
line = f.readline()
ind = _getindent(line)
msg = ""
while line:
msg = msg + line
line = f.readline()
# the following should be <= ind, but then we get
# confused by multiline docstrings. Using == works most of
# the time... but not always!
if _getindent(line) == ind: break
return msg
#----------------------------------------------------------------------
class pyTree(wx.wxTreeCtrl):
"""
This wxTreeCtrl derivative displays a tree view of a Python namespace.
Anything from which the dir() command returns a non-empty list is a branch
in this tree.
"""
def __init__(self, parent, id, root):
"""
Initialize function; because we insert branches into the tree
as needed, we use the ITEM_EXPANDING event handler. The
ITEM_COLLAPSED handler removes the stuff afterwards. The
SEL_CHANGED handler attempts to display interesting
information about the selected object.
"""
wx.wxTreeCtrl.__init__(self, parent, id)
self.root = self.AddRoot(str(root), -1, -1, wx.wxTreeItemData(root))
if dir(root):
self.SetItemHasChildren(self.root, wx.TRUE)
wx.EVT_TREE_ITEM_EXPANDING(self, self.GetId(), self.OnItemExpanding)
wx.EVT_TREE_ITEM_COLLAPSED(self, self.GetId(), self.OnItemCollapsed)
wx.EVT_TREE_SEL_CHANGED(self, self.GetId(), self.OnSelChanged)
self.output = None
def SetOutput(self, output):
"""
Set output function (accepts single string). Used to display string
representation of the selected object by OnSelChanged.
"""
self.output = output
def OnItemExpanding(self,event):
"""
The real workhorse of this class. First we retrieve the object
(parent) belonging to the branch that is to be expanded. This
is done by calling GetPyData(parent), which is a short-cut for
GetPyItemData(parent).Get().
Then we get the dir() list of that object. For each item in
this list, a tree item is created with associated
wxTreeItemData referencing the child object. We get this
object using child = getattr(parent, item).
Finally, we check wether the child returns a non-empty dir()
list. If so, it is labeled as 'having children', so that it
may be expanded. When it actually is expanded, this function
will again figure out what the offspring is.
"""
item = event.GetItem()
obj = self.GetPyData( item )
lst = dir(obj)
for key in lst:
new_obj = getattr(obj,key)
new_item = self.AppendItem( item, key, -1, -1,
wx.wxTreeItemData(new_obj) )
if dir(new_obj):
self.SetItemHasChildren(new_item, wx.TRUE)
def OnItemCollapsed(self, event):
"""
We need to remove all children here, otherwise we'll see all
that old rubbish again after the next expansion.
"""
item = event.GetItem()
self.DeleteChildren(item)
def OnSelChanged(self, event):
"""
If an output function is defined, we try to print some
informative, interesting and thought-provoking stuff to it.
If it has a __doc__ string, we print it. If it's a function or
unbound class method, we attempt to find the python source.
"""
if not self.output:
return
obj = self.GetPyData( event.GetItem() )
msg = str(obj)
if hasattr(obj, '__doc__'):
msg = msg+"\n\nDocumentation string:\n\n%s" % ( getattr(obj, '__doc__'),)
# Is it a function?
func = None
if hasattr(obj, "func_code"): # normal function
func = getattr(obj, "func_code")
elif hasattr(obj, "im_func"): # unbound class method
func = getattr(getattr(obj, "im_func"), "func_code")
if func: # if we found one, let's try to print the source
msg = msg+"\n\nFunction source:\n\n" + _sourcefinder(func)
apply(self.output, (msg,))
#----------------------------------------------------------------------
overview = __doc__
def runTest(frame, nb, log):
"""
This method is used by the wxPython Demo Framework for integrating
this demo with the rest.
"""
thisModule = __import__(__name__, globals())
win = wx.wxFrame(frame, -1, "PyTreeItemData Test")
split = wx.wxSplitterWindow(win, -1)
tree = pyTree(split, -1, thisModule)
text = wx.wxTextCtrl(split, -1, "", wx.wxDefaultPosition,
wx.wxDefaultSize, wx.wxTE_MULTILINE)
split.SplitVertically(tree, text, 200)
tree.SetOutput(text.SetValue)
tree.SelectItem(tree.root)
win.SetSize(wx.wxSize(800,500))
frame.otherWin = win
win.Show(1)
#----------------------------------------------------------------------
if __name__ == '__main__':
class MyFrame(wx.wxFrame):
"""Very standard Frame class. Nothing special here!"""
def __init__(self):
"""Make a splitter window; left a tree, right a textctrl. Wow."""
import __main__
wx.wxFrame.__init__(self, wx.NULL, -1, "PyTreeItemData Test",
wx.wxDefaultPosition, wx.wxSize(800,500))
split = wx.wxSplitterWindow(self, -1)
tree = pyTree(split, -1, __main__)
text = wx.wxTextCtrl(split, -1, "", wx.wxDefaultPosition,
wx.wxDefaultSize, wx.wxTE_MULTILINE)
split.SplitVertically(tree, text, 200)
tree.SetOutput(text.SetValue)
tree.SelectItem(tree.root)
class MyApp(wx.wxApp):
"""This class is even less interesting than MyFrame."""
def OnInit(self):
"""OnInit. Boring, boring, boring!"""
frame = MyFrame()
frame.Show(wx.TRUE)
self.SetTopWindow(frame)
return wx.TRUE
app = MyApp(0)
app.MainLoop()

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<?xml version="1.0"?>
<!DOCTYPE quotations [
<!ELEMENT collection (quotation)*>
<!ELEMENT em (#PCDATA) >
<!ELEMENT foreign (#PCDATA) >
<!ELEMENT cite (#PCDATA) >
<!ELEMENT author (#PCDATA)>
<!ELEMENT source (#PCDATA|cite)*>
<!ELEMENT quotation (#PCDATA|author|source)* >
]>
<collection><quotation>We will perhaps eventually be writing only small modules which are identified by name as they are used to build larger ones, so that devices like indentation, rather than delimiters, might become feasible for expressing local structure in the source language. <source>Donald E. Knuth, "Structured Programming with goto Statements", Computing Surveys, Vol 6 No 4, Dec. 1974</source> </quotation> <quotation> The infinities aren't contagious except in that they often appear that way due to to their large size. <source>Tim Peters on the IEEE 754 floating point standard, 27 Apr 1998</source> </quotation> </collection>

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from wxPython.wx import *
#----------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
wxButton(self, 10, "Hello", wxPoint(20, 20)).SetDefault()
EVT_BUTTON(self, 10, self.OnClick)
wxButton(self, 20, "HELLO AGAIN!", wxPoint(20, 60), wxSize(90, 45))
EVT_BUTTON(self, 20, self.OnClick)
bmp = wxBitmap('bitmaps/test2.bmp', wxBITMAP_TYPE_BMP)
wxBitmapButton(self, 30, bmp, wxPoint(140, 20),
wxSize(bmp.GetWidth()+10, bmp.GetHeight()+10))
EVT_BUTTON(self, 30, self.OnClick)
def OnClick(self, event):
self.log.WriteText("Click! (%d)\n" % event.GetId())
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPanel(nb, log)
return win
#----------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestCheckBox(wxPanel):
def __init__(self, parent, log):
self.log = log
wxPanel.__init__(self, parent, -1)
wxStaticText(self, -1, "This example uses the wxCheckBox control.",
wxPoint(10, 10))
cID = NewId()
cb1 = wxCheckBox(self, cID, " Apples", wxPoint(65, 40), wxSize(150, 20), wxNO_BORDER)
cb2 = wxCheckBox(self, cID+1, " Oranges", wxPoint(65, 60), wxSize(150, 20), wxNO_BORDER)
cb2.SetValue(true)
cb3 = wxCheckBox(self, cID+2, " Pears", wxPoint(65, 80), wxSize(150, 20), wxNO_BORDER)
EVT_CHECKBOX(self, cID, self.EvtCheckBox)
EVT_CHECKBOX(self, cID+1, self.EvtCheckBox)
EVT_CHECKBOX(self, cID+2, self.EvtCheckBox)
def EvtCheckBox(self, event):
self.log.WriteText('EvtCheckBox: %d\n' % event.Checked())
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestCheckBox(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
A checkbox is a labelled box which is either on (checkmark is visible) or off (no checkmark).
wxCheckBox()
-----------------------
Default constructor.
wxCheckBox(wxWindow* parent, wxWindowID id, const wxString& label, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = 0, const wxValidator& val, const wxString& name = "checkBox")
Constructor, creating and showing a checkbox.
Parameters
-------------------
parent = Parent window. Must not be NULL.
id = Checkbox identifier. A value of -1 indicates a default value.
label = Text to be displayed next to the checkbox.
pos = Checkbox position. If the position (-1, -1) is specified then a default position is chosen.
size = Checkbox size. If the default size (-1, -1) is specified then a default size is chosen.
style = Window style. See wxCheckBox.
validator = Window validator.
name = Window name.
"""

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from wxPython.wx import *
#----------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
sampleList = ['zero', 'one', 'two', 'three', 'four', 'five',
'six', 'seven', 'eight', 'nine', 'ten', 'eleven',
'twelve', 'thirteen', 'fourteen']
wxStaticText(self, -1, "This example uses the wxCheckListBox control.",
wxPoint(45, 15))
lb = wxCheckListBox(self, 60, wxPoint(80, 50), wxSize(80, 120),
sampleList)
EVT_LISTBOX(self, 60, self.EvtListBox)
EVT_LISTBOX_DCLICK(self, 60, self.EvtListBoxDClick)
lb.SetSelection(0)
def EvtListBox(self, event):
self.log.WriteText('EvtListBox: %s\n' % event.GetString())
def EvtListBoxDClick(self, event):
self.log.WriteText('EvtListBoxDClick:\n')
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPanel(nb, log)
return win
#----------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestChoice(wxPanel):
def __init__(self, parent, log):
self.log = log
wxPanel.__init__(self, parent, -1)
sampleList = ['zero', 'one', 'two', 'three', 'four', 'five',
'six', 'seven', 'eight']
wxStaticText(self, -1, "This example uses the wxChoice control.",
wxPoint(15, 10))
wxStaticText(self, -1, "Select one:", wxPoint(15, 50), wxSize(75, 20))
wxChoice(self, 40, wxPoint(80, 50), wxSize(95, 20), #wxDefaultSize,
sampleList)
EVT_CHOICE(self, 40, self.EvtChoice)
def EvtChoice(self, event):
self.log.WriteText('EvtChoice: %s\n' % event.GetString())
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestChoice(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
A choice item is used to select one of a list of strings. Unlike a listbox, only the selection is visible until the user pulls down the menu of choices.
wxChoice()
-------------------
Default constructor.
wxChoice(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, int n, const wxString choices[], long style = 0, const wxValidator& validator = wxDefaultValidator, const wxString& name = "choice")
Constructor, creating and showing a choice.
Parameters
-------------------
parent = Parent window. Must not be NULL.
id = Window identifier. A value of -1 indicates a default value.
pos = Window position.
size = Window size. If the default size (-1, -1) is specified then the choice is sized appropriately.
n = Number of strings with which to initialise the choice control.
choices = An array of strings with which to initialise the choice control.
style = Window style. See wxChoice.
validator = Window validator.
name = Window name.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
data = wxColourData()
data.SetChooseFull(true)
dlg = wxColourDialog(frame, data)
if dlg.ShowModal() == wxID_OK:
data = dlg.GetColourData()
log.WriteText('You selected: %s\n' % str(data.GetColour().Get()))
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
This class represents the colour chooser dialog.
wxColourDialog()
------------------------------
wxColourDialog(wxWindow* parent, wxColourData* data = NULL)
Constructor. Pass a parent window, and optionally a pointer to a block of colour data, which will be copied to the colour dialog's colour data.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestComboBox(wxPanel):
def __init__(self, parent, log):
self.log = log
wxPanel.__init__(self, parent, -1)
sampleList = ['zero', 'one', 'two', 'three', 'four', 'five',
'six', 'seven', 'eight']
wxStaticText(self, -1, "This example uses the wxComboBox control.",
wxPoint(8, 10))
wxStaticText(self, -1, "Select one:", wxPoint(15, 50), wxSize(75, 18))
wxComboBox(self, 500, "default value", wxPoint(80, 50), wxSize(95, -1),
sampleList, wxCB_DROPDOWN)
EVT_COMBOBOX(self, 500, self.EvtComboBox)
def EvtComboBox(self, event):
self.log.WriteText('EvtComboBox: %s\n' % event.GetString())
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestComboBox(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
A combobox is like a combination of an edit control and a listbox. It can be displayed as static list with editable or read-only text field; or a drop-down list with text field; or a drop-down list without a text field.
A combobox permits a single selection only. Combobox items are numbered from zero.
wxComboBox()
-----------------------
Default constructor.
wxComboBox(wxWindow* parent, wxWindowID id, const wxString& value = "", const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, int n, const wxString choices[], long style = 0, const wxValidator& validator = wxDefaultValidator, const wxString& name = "comboBox")
Constructor, creating and showing a combobox.
Parameters
-------------------
parent = Parent window. Must not be NULL.
id = Window identifier. A value of -1 indicates a default value.
pos = Window position.
size = Window size. If the default size (-1, -1) is specified then the window is sized appropriately.
n = Number of strings with which to initialise the control.
choices = An array of strings with which to initialise the control.
style = Window style. See wxComboBox.
validator = Window validator.
name = Window name.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = wxDialog(frame, -1, "This is a wxDialog", wxDefaultPosition, wxSize(350, 200))
wxStaticText(win, -1, "This is a wxDialog", wxPoint(20, 20))
wxButton(win, wxID_OK, " OK ", wxPoint(75, 120), wxDefaultSize).SetDefault()
wxButton(win, wxID_CANCEL, " Cancel ", wxPoint(200, 120), wxDefaultSize)
val = win.ShowModal()
if val == wxID_OK:
log.WriteText("You pressed OK\n")
else:
log.WriteText("You pressed Cancel\n")
#---------------------------------------------------------------------------
overview = """\
"""

53
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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
dlg = wxDirDialog(frame)
if dlg.ShowModal() == wxID_OK:
log.WriteText('You selected: %s\n' % dlg.GetPath())
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
This class represents the directory chooser dialog.
wxDirDialog()
------------------------
wxDirDialog(wxWindow* parent, const wxString& message = "Choose a directory", const wxString& defaultPath = "", long style = 0, const wxPoint& pos = wxDefaultPosition)
Constructor. Use wxDirDialog::ShowModal to show the dialog.
Parameters
-------------------
parent = Parent window.
message = Message to show on the dialog.
defaultPath = The default path, or the empty string.
style = A dialog style, currently unused.
pos = Dialog position.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
dlg = wxFileDialog(frame, "Choose a file", ".", "", "*.*", wxOPEN)
if dlg.ShowModal() == wxID_OK:
log.WriteText('You selected: %s\n' % dlg.GetPath())
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
This class represents the file chooser dialog.
wxFileDialog()
----------------------------
wxFileDialog(wxWindow* parent, const wxString& message = "Choose a file", const wxString& defaultDir = ""
, const wxString& defaultFile = "", const wxString& wildcard = "*.*", long style = 0, const wxPoint& pos = wxDefaultPosition)
Constructor. Use wxFileDialog::ShowModal to show the dialog.
Parameters
-------------------
parent = Parent window.
message = Message to show on the dialog.
defaultDir = The default directory, or the empty string.
defaultFile = The default filename, or the empty string.
wildcard = A wildcard, such as "*.*".
style = A dialog style. A bitlist of:
wxOPEN This is an open dialog (Windows only).
wxSAVE This is a save dialog (Windows only).
wxHIDE_READONLY Hide read-only files (Windows only).
wxOVERWRITE_PROMPT Prompt for a conformation if a file will be overridden (Windows only).
pos = Dialog position.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
dlg = wxFontDialog(frame)
if dlg.ShowModal() == wxID_OK:
data = dlg.GetFontData()
font = data.GetChosenFont()
log.WriteText('You selected: "%s", %d points, color %s\n' %
(font.GetFaceName(), font.GetPointSize(),
data.GetColour().Get()))
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
This class represents the font chooser dialog.
wxFontDialog()
----------------------------
wxFontDialog(wxWindow* parent, wxFontData* data = NULL)
Constructor. Pass a parent window, and optionally a pointer to a block of font data, which will be copied to the font dialog's font data.
"""

41
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from wxPython.wx import *
#---------------------------------------------------------------------------
class MyFrame(wxFrame):
def __init__(self, parent, ID, title, pos, size):
wxFrame.__init__(self, parent, ID, title, pos, size)
panel = wxPanel(self, -1)
button = wxButton(panel, 1003, "Close Me")
button.SetPosition(wxPoint(15, 15))
EVT_BUTTON(self, 1003, self.OnCloseMe)
def OnCloseMe(self, event):
self.Close(true)
def OnCloseWindow(self, event):
self.Destroy()
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = MyFrame(frame, -1, "This is a wxFrame", wxDefaultPosition, wxSize(350, 200))
frame.otherWin = win
win.Show(true)
#---------------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
try:
from wxPython.glcanvas import *
haveGLCanvas = true
except ImportError:
haveGLCanvas = false
#----------------------------------------------------------------------
if not haveGLCanvas:
def runTest(frame, nb, log):
dlg = wxMessageDialog(frame, 'The wxGLCanvas has not been included with this build of wxPython!',
'Sorry', wxOK | wxICON_INFORMATION)
dlg.ShowModal()
dlg.Destroy()
else:
def runTest(frame, nb, log):
#win = TestGLCanvas(nb)
#return win
win = wxFrame(frame, -1, "GL Cube", wxDefaultPosition, wxSize(400,300))
canvas = TestGLCanvas(win)
frame.otherWin = win
win.Show(true)
return None
class TestGLCanvas(wxGLCanvas):
def __init__(self, parent):
wxGLCanvas.__init__(self, parent, -1)
EVT_ERASE_BACKGROUND(self, self.OnEraseBackground)
self.init = false
def OnEraseBackground(self, event):
pass # Do nothing, to avoid flashing.
def OnSize(self, event):
size = self.GetClientSize()
if self.GetContext() != 'NULL':
self.SetCurrent()
glViewport(0, 0, size.width, size.height)
def OnPaint(self, event):
dc = wxPaintDC(self)
ctx = self.GetContext()
if ctx == "NULL": return
self.SetCurrent()
if not self.init:
self.InitGL()
self.init = true
# clear color and depth buffers
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
# draw six faces of a cube
glBegin(GL_QUADS)
glNormal3f( 0.0, 0.0, 1.0)
glVertex3f( 0.5, 0.5, 0.5)
glVertex3f(-0.5, 0.5, 0.5)
glVertex3f(-0.5,-0.5, 0.5)
glVertex3f( 0.5,-0.5, 0.5)
glNormal3f( 0.0, 0.0,-1.0)
glVertex3f(-0.5,-0.5,-0.5)
glVertex3f(-0.5, 0.5,-0.5)
glVertex3f( 0.5, 0.5,-0.5)
glVertex3f( 0.5,-0.5,-0.5)
glNormal3f( 0.0, 1.0, 0.0)
glVertex3f( 0.5, 0.5, 0.5)
glVertex3f( 0.5, 0.5,-0.5)
glVertex3f(-0.5, 0.5,-0.5)
glVertex3f(-0.5, 0.5, 0.5)
glNormal3f( 0.0,-1.0, 0.0)
glVertex3f(-0.5,-0.5,-0.5)
glVertex3f( 0.5,-0.5,-0.5)
glVertex3f( 0.5,-0.5, 0.5)
glVertex3f(-0.5,-0.5, 0.5)
glNormal3f( 1.0, 0.0, 0.0)
glVertex3f( 0.5, 0.5, 0.5)
glVertex3f( 0.5,-0.5, 0.5)
glVertex3f( 0.5,-0.5,-0.5)
glVertex3f( 0.5, 0.5,-0.5)
glNormal3f(-1.0, 0.0, 0.0)
glVertex3f(-0.5,-0.5,-0.5)
glVertex3f(-0.5,-0.5, 0.5)
glVertex3f(-0.5, 0.5, 0.5)
glVertex3f(-0.5, 0.5,-0.5)
glEnd()
self.SwapBuffers()
def InitGL(self):
# set viewing projection
glMatrixMode(GL_PROJECTION);
glFrustum(-0.5, 0.5, -0.5, 0.5, 1.0, 3.0);
# position viewer
glMatrixMode(GL_MODELVIEW);
glTranslatef(0.0, 0.0, -2.0);
# position object
glRotatef(30.0, 1.0, 0.0, 0.0);
glRotatef(30.0, 0.0, 1.0, 0.0);
glEnable(GL_DEPTH_TEST);
glEnable(GL_LIGHTING);
glEnable(GL_LIGHT0);
overview = """\
"""
#----------------------------------------------------------------------
def _test():
class MyApp(wxApp):
def OnInit(self):
frame = wxFrame(NULL, -1, "GL Cube", wxDefaultPosition, wxSize(400,300))
win = TestGLCanvas(frame)
frame.Show(TRUE)
self.SetTopWindow(frame)
return TRUE
app = MyApp(0)
app.MainLoop()
if __name__ == '__main__':
_test()

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from wxPython.wx import *
#----------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
self.count = 0
wxStaticText(self, -1, "This example uses the wxGauge control.",
wxPoint(45, 15))
#self.g1 = wxGauge(self, -1, 50, wxPoint(40, 50), wxSize(40, 160),
# wxGA_VERTICAL)
#self.g1.SetBezelFace(3)
#self.g1.SetShadowWidth(3)
self.g2 = wxGauge(self, -1, 50, wxPoint(110, 50), wxSize(250, 25),
wxGA_HORIZONTAL)
self.g2.SetBezelFace(5)
self.g2.SetShadowWidth(5)
EVT_IDLE(self, self.IdleHandler)
def IdleHandler(self, event):
self.count = self.count + 1
if self.count >= 50:
self.count = 0
#self.g1.SetValue(self.count)
self.g2.SetValue(self.count)
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPanel(nb, log)
return win
#----------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestGrid(wxGrid):
def __init__(self, parent, log):
wxGrid.__init__(self, parent, -1)
self.log = log
self.CreateGrid(16, 16)
self.SetColumnWidth(3, 200)
self.SetRowHeight(4, 45)
self.SetCellValue("First cell", 0, 0)
self.SetCellValue("Another cell", 1, 1)
self.SetCellValue("Yet another cell", 2, 2)
self.SetCellTextFont(wxFont(12, wxROMAN, wxITALIC, wxNORMAL), 0, 0)
self.SetCellTextColour(wxRED, 1, 1)
self.SetCellBackgroundColour(wxCYAN, 2, 2)
self.UpdateDimensions()
self.AdjustScrollbars()
EVT_GRID_SELECT_CELL(self, self.OnSelectCell)
EVT_GRID_CELL_CHANGE(self, self.OnCellChange)
EVT_GRID_CELL_LCLICK(self, self.OnCellClick)
EVT_GRID_LABEL_LCLICK(self, self.OnLabelClick)
self.SetEditInPlace(true)
#print self.GetCells()
def OnSelectCell(self, event):
self.log.WriteText("OnSelectCell: (%d, %d)\n" % (event.m_row, event.m_col))
def OnCellChange(self, event):
self.log.WriteText("OnCellChange: (%d, %d)\n" % (event.m_row, event.m_col))
def OnCellClick(self, event):
self.log.WriteText("OnCellClick: (%d, %d)\n" % (event.m_row, event.m_col))
def OnLabelClick(self, event):
self.log.WriteText("OnLabelClick: (%d, %d)\n" % (event.m_row, event.m_col))
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestGrid(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
wxGrid is a class for displaying and editing tabular information.
wxGrid()
-----------------
wxGrid(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style=0, const wxString& name="grid")
Constructor. Before using a wxGrid object, you must call CreateGrid to set up the required rows and columns.
"""

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from wxPython.wx import *
#----------------------------------------------------------------------
def runTest(frame, nb, log):
bmp = wxImage('bitmaps/image.bmp', wxBITMAP_TYPE_BMP).ConvertToBitmap()
gif = wxImage('bitmaps/image.gif', wxBITMAP_TYPE_GIF).ConvertToBitmap()
png = wxImage('bitmaps/image.png', wxBITMAP_TYPE_PNG).ConvertToBitmap()
jpg = wxImage('bitmaps/image.jpg', wxBITMAP_TYPE_JPEG).ConvertToBitmap()
panel = wxPanel(nb, -1)
pos = 10
wxStaticBitmap(panel, -1, bmp, wxPoint(10, pos),
wxSize(bmp.GetWidth(), bmp.GetHeight()))
pos = pos + bmp.GetHeight() + 10
wxStaticBitmap(panel, -1, gif, wxPoint(10, pos),
wxSize(gif.GetWidth(), gif.GetHeight()))
pos = pos + gif.GetHeight() + 10
wxStaticBitmap(panel, -1, png, wxPoint(10, pos),
wxSize(png.GetWidth(), png.GetHeight()))
pos = pos + png.GetHeight() + 10
wxStaticBitmap(panel, -1, jpg, wxPoint(10, pos),
wxSize(jpg.GetWidth(), jpg.GetHeight()))
return panel
#----------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestLayoutConstraints(wxWindow):
def __init__(self, parent):
wxWindow.__init__(self, parent, -1)
self.SetBackgroundColour(wxNamedColour("MEDIUM ORCHID"))
self.SetAutoLayout(true)
EVT_BUTTON(self, 100, self.OnButton)
self.panelA = wxWindow(self, -1, wxDefaultPosition, wxDefaultSize,
wxSIMPLE_BORDER)
self.panelA.SetBackgroundColour(wxBLUE)
txt = wxStaticText(self.panelA, -1,
"Resize the window and see\n"
"what happens... Notice that\n"
"there is no OnSize handler.",
wxPoint(5,5), wxSize(-1, 50))
txt.SetBackgroundColour(wxBLUE)
txt.SetForegroundColour(wxWHITE)
lc = wxLayoutConstraints()
lc.top.SameAs(self, wxTop, 10)
lc.left.SameAs(self, wxLeft, 10)
lc.bottom.SameAs(self, wxBottom, 10)
lc.right.PercentOf(self, wxRight, 50)
self.panelA.SetConstraints(lc)
self.panelB = wxWindow(self, -1, wxDefaultPosition, wxDefaultSize,
wxSIMPLE_BORDER)
self.panelB.SetBackgroundColour(wxRED)
lc = wxLayoutConstraints()
lc.top.SameAs(self, wxTop, 10)
lc.right.SameAs(self, wxRight, 10)
lc.bottom.PercentOf(self, wxBottom, 30)
lc.left.RightOf(self.panelA, 10)
self.panelB.SetConstraints(lc)
self.panelC = wxWindow(self, -1, wxDefaultPosition, wxDefaultSize,
wxSIMPLE_BORDER)
self.panelC.SetBackgroundColour(wxWHITE)
lc = wxLayoutConstraints()
lc.top.Below(self.panelB, 10)
lc.right.SameAs(self, wxRight, 10)
lc.bottom.SameAs(self, wxBottom, 10)
lc.left.RightOf(self.panelA, 10)
self.panelC.SetConstraints(lc)
b = wxButton(self.panelA, 100, ' Panel A ')
lc = wxLayoutConstraints()
lc.centreX.SameAs (self.panelA, wxCentreX)
lc.centreY.SameAs (self.panelA, wxCentreY)
lc.height.AsIs ()
lc.width.PercentOf (self.panelA, wxWidth, 50)
b.SetConstraints(lc);
b = wxButton(self.panelB, 100, ' Panel B ')
lc = wxLayoutConstraints()
lc.top.SameAs (self.panelB, wxTop, 2)
lc.right.SameAs (self.panelB, wxRight, 4)
lc.height.AsIs ()
lc.width.AsIs ()
b.SetConstraints(lc);
self.panelD = wxWindow(self.panelC, -1, wxDefaultPosition, wxDefaultSize,
wxSIMPLE_BORDER)
self.panelD.SetBackgroundColour(wxGREEN)
wxStaticText(self.panelD, -1, "Panel D", wxPoint(4, 4)).SetBackgroundColour(wxGREEN)
b = wxButton(self.panelC, 100, ' Panel C ')
lc = wxLayoutConstraints()
lc.top.Below (self.panelD)
lc.left.RightOf (self.panelD)
lc.height.AsIs ()
lc.width.AsIs ()
b.SetConstraints(lc);
lc = wxLayoutConstraints()
lc.bottom.PercentOf (self.panelC, wxHeight, 50)
lc.right.PercentOf (self.panelC, wxWidth, 50)
lc.height.SameAs (b, wxHeight)
lc.width.SameAs (b, wxWidth)
self.panelD.SetConstraints(lc);
def OnButton(self, event):
wxBell()
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestLayoutConstraints(nb)
return win
#---------------------------------------------------------------------------
overview = """\
Objects of this class can be associated with a window to define its layout constraints, with respect to siblings or its parent.
The class consists of the following eight constraints of class wxIndividualLayoutConstraint, some or all of which should be accessed directly to set the appropriate constraints.
left: represents the left hand edge of the window
right: represents the right hand edge of the window
top: represents the top edge of the window
bottom: represents the bottom edge of the window
width: represents the width of the window
height: represents the height of the window
centreX: represents the horizontal centre point of the window
centreY: represents the vertical centre point of the window
Most constraints are initially set to have the relationship wxUnconstrained, which means that their values should be calculated by looking at known constraints. The exceptions are width and height, which are set to wxAsIs to ensure that if the user does not specify a constraint, the existing width and height will be used, to be compatible with panel items which often have take a default size. If the constraint is wxAsIs, the dimension will not be changed.
wxLayoutConstraints()
-------------------------------------------
Constructor.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestListBox(wxPanel):
def __init__(self, parent, log):
self.log = log
wxPanel.__init__(self, parent, -1)
sampleList = ['zero', 'one', 'two', 'three', 'four', 'five',
'six', 'seven', 'eight', 'nine', 'ten', 'eleven',
'twelve', 'thirteen', 'fourteen']
wxStaticText(self, -1, "This example uses the wxListBox control.",
wxPoint(45, 10))
wxStaticText(self, -1, "Select one:", wxPoint(15, 50), wxSize(65, 18))
self.lb1 = wxListBox(self, 60, wxPoint(80, 50), wxSize(80, 120),
sampleList, wxLB_SINGLE)
EVT_LISTBOX(self, 60, self.EvtListBox)
EVT_LISTBOX_DCLICK(self, 60, self.EvtListBoxDClick)
EVT_RIGHT_UP(self.lb1, self.EvtRightButton)
self.lb1.SetSelection(0)
wxStaticText(self, -1, "Select many:", wxPoint(200, 50), wxSize(65, 18))
self.lb2 = wxListBox(self, 70, wxPoint(280, 50), wxSize(80, 120),
sampleList, wxLB_EXTENDED)
EVT_LISTBOX(self, 70, self.EvtMultiListBox)
EVT_LISTBOX_DCLICK(self, 70, self.EvtListBoxDClick)
self.lb2.SetSelection(0)
def EvtListBox(self, event):
self.log.WriteText('EvtListBox: %s\n' % event.GetString())
def EvtListBoxDClick(self, event):
self.log.WriteText('EvtListBoxDClick: %s\n' % self.lb1.GetSelection())
def EvtMultiListBox(self, event):
self.log.WriteText('EvtMultiListBox: %s\n' % str(self.lb2.GetSelections()))
def EvtRightButton(self, event):
self.log.WriteText('EvtRightButton: %s\n' % event.GetPosition())
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestListBox(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
A listbox is used to select one or more of a list of strings. The strings are displayed in a scrolling box, with the selected string(s) marked in reverse video. A listbox can be single selection (if an item is selected, the previous selection is removed) or multiple selection (clicking an item toggles the item on or off independently of other selections).
List box elements are numbered from zero.
wxListBox()
---------------------
Default constructor.
wxListBox(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, int n, const wxString choices[] = NULL, long style = 0, const wxValidator& validator = wxDefaultValidator, const wxString& name = "listBox")
Constructor, creating and showing a list box.
Parameters
-------------------
parent = Parent window. Must not be NULL.
id = Window identifier. A value of -1 indicates a default value.
pos = Window position.
size = Window size. If the default size (-1, -1) is specified then the window is sized appropriately.
n = Number of strings with which to initialise the control.
choices = An array of strings with which to initialise the control.
style = Window style. See wxListBox.
validator = Window validator.
name = Window name.
"""

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#!/bin/env python
#----------------------------------------------------------------------------
# Name: ListCtrl.py
# Purpose: Testing lots of stuff, controls, window types, etc.
#
# Author: Robin Dunn & Gary Dumer
#
# Created:
# RCS-ID: $Id$
# Copyright: (c) 1998 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------------
from wxPython.wx import *
#---------------------------------------------------------------------------
class TestListCtrlPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
tID = NewId()
self.il = wxImageList(16, 16)
idx1 = self.il.Add(wxNoRefBitmap('bitmaps/smiles.bmp', wxBITMAP_TYPE_BMP))
self.list = wxListCtrl(self, tID, wxDefaultPosition, wxDefaultSize,
wxLC_REPORT|wxSUNKEN_BORDER)
self.list.SetImageList(self.il, wxIMAGE_LIST_SMALL)
self.list.SetToolTip(wxToolTip("This is a ToolTip!"))
wxToolTip_Enable(true)
self.list.InsertColumn(0, "Column 0")
self.list.InsertColumn(1, "Column 1")
self.list.InsertColumn(2, "One More Column (2)")
for x in range(50):
self.list.InsertImageStringItem(x, "This is item %d" % x, idx1)
self.list.SetStringItem(x, 1, "Col 1, item %d" % x)
self.list.SetStringItem(x, 2, "item %d in column 2" % x)
self.list.SetColumnWidth(0, wxLIST_AUTOSIZE)
self.list.SetColumnWidth(1, wxLIST_AUTOSIZE)
self.list.SetColumnWidth(2, wxLIST_AUTOSIZE)
self.list.SetItemState(5, wxLIST_STATE_SELECTED, wxLIST_STATE_SELECTED)
self.currentItem = 0
EVT_LIST_ITEM_SELECTED(self, tID, self.OnItemSelected)
EVT_LIST_DELETE_ITEM(self, tID, self.OnItemDelete)
EVT_LEFT_DCLICK(self.list, self.OnDoubleClick)
EVT_RIGHT_DOWN(self.list, self.OnRightDown)
# for wxMSW
EVT_COMMAND_RIGHT_CLICK(self.list, tID, self.OnRightClick)
# for wxGTK
EVT_RIGHT_UP(self.list, self.OnRightClick)
def OnRightDown(self, event):
self.x = event.GetX()
self.y = event.GetY()
self.log.WriteText("x, y = %s\n" % str((self.x, self.y)))
event.Skip()
def OnItemSelected(self, event):
self.currentItem = event.m_itemIndex
self.log.WriteText("OnItemSelected: %s\n" % self.list.GetItemText(self.currentItem))
def OnItemDelete(self, event):
self.log.WriteText("OnItemDelete\n")
def OnDoubleClick(self, event):
self.log.WriteText("OnDoubleClick item %s\n" % self.list.GetItemText(self.currentItem))
def OnRightClick(self, event):
self.log.WriteText("OnRightClick %s\n" % self.list.GetItemText(self.currentItem))
self.menu = wxMenu()
tPopupID1 = 0
tPopupID2 = 1
tPopupID3 = 2
tPopupID4 = 3
self.menu.Append(tPopupID1, "One")
self.menu.Append(tPopupID2, "Two")
self.menu.Append(tPopupID3, "Three")
self.menu.Append(tPopupID4, "DeleteAllItems")
EVT_MENU(self, tPopupID1, self.OnPopupOne)
EVT_MENU(self, tPopupID2, self.OnPopupTwo)
EVT_MENU(self, tPopupID3, self.OnPopupThree)
EVT_MENU(self, tPopupID4, self.OnPopupFour)
self.PopupMenu(self.menu, wxPoint(self.x, self.y))
def OnPopupOne(self, event):
self.log.WriteText("Popup one\n")
def OnPopupTwo(self, event):
self.log.WriteText("Popup two\n")
def OnPopupThree(self, event):
self.log.WriteText("Popup three\n")
def OnPopupFour(self, event):
self.list.DeleteAllItems()
def OnSize(self, event):
w,h = self.GetClientSizeTuple()
self.list.SetDimensions(0, 0, w, h)
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestListCtrlPanel(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
A list control presents lists in a number of formats: list view, report view, icon view and small icon view. Elements are numbered from zero.
wxListCtrl()
------------------------
Default constructor.
wxListCtrl(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxLC_ICON, const wxValidator& validator = wxDefaultValidator, const wxString& name = "listCtrl")
Constructor, creating and showing a list control.
Parameters
-------------------
parent = Parent window. Must not be NULL.
id = Window identifier. A value of -1 indicates a default value.
pos = Window position.
size = Window size. If the default size (-1, -1) is specified then the window is sized appropriately.
style = Window style. See wxListCtrl.
validator = Window validator.
name = Window name.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
dlg = wxMessageDialog(frame, 'Hello from Python and wxPython!',
'A Message Box', wxOK | wxICON_INFORMATION)
dlg.ShowModal()
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
wxMessageDialog()
----------------------------------
wxMessageDialog(wxWindow* parent, const wxString& message, const wxString& caption = "Message box", long style = wxOK | wxCANCEL | wxCENTRE, const wxPoint& pos = wxDefaultPosition)
Constructor. Use wxMessageDialog::ShowModal to show the dialog.
Parameters
-------------------
parent = Parent window.
message = Message to show on the dialog.
caption = The dialog caption.
style = A dialog style (bitlist) containing flags chosen from the following:
wxOK Show an OK button.
wxCANCEL Show a Cancel button.
wxYES_NO Show Yes and No buttons.
wxCENTRE Centre the message. Not Windows.
wxICON_EXCLAMATION Shows an exclamation mark icon. Windows only.
wxICON_HAND Shows a hand icon. Windows only.
wxICON_QUESTION Shows a question mark icon. Windows only.
wxICON_INFORMATION Shows an information (i) icon. Windows only.
pos = Dialog position.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class MyMiniFrame(wxMiniFrame):
def __init__(self, parent, ID, title, pos, size, style):
wxMiniFrame.__init__(self, parent, ID, title, pos, size, style)
panel = wxPanel(self, -1)
button = wxButton(panel, 1003, "Close Me")
button.SetPosition(wxPoint(15, 15))
EVT_BUTTON(self, 1003, self.OnCloseMe)
def OnCloseMe(self, event):
self.Close(true)
def OnCloseWindow(self, event):
self.Destroy()
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = MyMiniFrame(frame, -1, "This is a wxMiniFrame",
wxDefaultPosition, wxSize(200, 200),
wxDEFAULT_FRAME_STYLE | wxTINY_CAPTION_HORIZ)
frame.otherWin = win
win.Show(true)
#---------------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
from wxPython.lib.dialogs import wxMultipleChoiceDialog
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
lst = [ 'apple', 'pear', 'banana', 'coconut', 'orange',
'etc', 'etc..', 'etc...' ]
dlg = wxMultipleChoiceDialog(frame,
"Pick some from\n this list\nblah blah...",
"m.s.d.", lst)
if (dlg.ShowModal() == wxID_OK):
print "Selection:", dlg.GetValue(), " -> ", dlg.GetValueString()
#---------------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
import ColorPanel
#----------------------------------------------------------------------------
def runTest(frame, nb, log):
testWin = wxNotebook(nb, -1)
win = ColorPanel.ColoredPanel(testWin, wxBLUE)
testWin.AddPage(win, "Blue")
st = wxStaticText(win, -1,
"You can put nearly any type of window here!",
wxPoint(10, 10))
st.SetForegroundColour(wxWHITE)
st.SetBackgroundColour(wxBLUE)
win = ColorPanel.ColoredPanel(testWin, wxRED)
testWin.AddPage(win, "Red")
win = ColorPanel.ColoredPanel(testWin, wxGREEN)
testWin.AddPage(win, "Green")
win = ColorPanel.ColoredPanel(testWin, wxCYAN)
testWin.AddPage(win, "Cyan")
win = ColorPanel.ColoredPanel(testWin, wxWHITE)
testWin.AddPage(win, "White")
win = ColorPanel.ColoredPanel(testWin, wxBLACK)
testWin.AddPage(win, "Black")
win = ColorPanel.ColoredPanel(testWin, wxNamedColour('MIDNIGHT BLUE'))
testWin.AddPage(win, "MIDNIGHT BLUE")
win = ColorPanel.ColoredPanel(testWin, wxNamedColour('INDIAN RED'))
testWin.AddPage(win, "INDIAN RED")
return testWin
#----------------------------------------------------------------------------
overview = """\
This class represents a notebook control, which manages multiple windows with associated tabs.
To use the class, create a wxNotebook object and call AddPage or InsertPage, passing a window to be used as the page. Do not explicitly delete the window for a page that is currently managed by wxNotebook.
wxNotebook()
-------------------------
Default constructor.
wxNotebook(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size, long style = 0, const wxString& name = "notebook")
Constructs a notebook control.
Parameters
-------------------
parent = The parent window. Must be non-NULL.
id = The window identifier.
pos = The window position.
size = The window size.
style = The window style. Its value is a bit list of zero or more of wxTC_MULTILINE, wxTC_RIGHTJUSTIFY, wxTC_FIXEDWIDTH and wxTC_OWNERDRAW.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
data = wxPageSetupDialogData()
data.SetMarginTopLeft(wxPoint(50,50))
data.SetMarginBottomRight(wxPoint(50,50))
dlg = wxPageSetupDialog(frame, data)
if dlg.ShowModal() == wxID_OK:
data = dlg.GetPageSetupData()
tl = data.GetMarginTopLeft()
br = data.GetMarginBottomRight()
log.WriteText('Margins are: %s %s\n' % (str(tl), str(br)))
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
"""

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from wxPython.lib.wxPlotCanvas import *
from wxPython.lib import wxPlotCanvas
#---------------------------------------------------------------------------
def _InitObjects():
# 100 points sin function, plotted as green circles
data1 = 2.*Numeric.pi*Numeric.arange(200)/200.
data1.shape = (100, 2)
data1[:,1] = Numeric.sin(data1[:,0])
markers1 = PolyMarker(data1, color='green', marker='circle',size=1)
# 50 points cos function, plotted as red line
data1 = 2.*Numeric.pi*Numeric.arange(100)/100.
data1.shape = (50,2)
data1[:,1] = Numeric.cos(data1[:,0])
lines = PolyLine(data1, color='red')
# A few more points...
pi = Numeric.pi
markers2 = PolyMarker([(0., 0.), (pi/4., 1.), (pi/2, 0.),
(3.*pi/4., -1)], color='blue',
fillcolor='green', marker='cross')
return PlotGraphics([markers1, lines, markers2])
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = PlotCanvas(nb)
win.draw(_InitObjects(),'automatic','automatic');
return win
overview = wxPlotCanvas.__doc__
#---------------------------------------------------------------------------

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
data = wxPrintDialogData()
data.EnablePrintToFile(true)
data.EnablePageNumbers(true)
data.EnableSelection(true)
dlg = wxPrintDialog(frame, data)
if dlg.ShowModal() == wxID_OK:
log.WriteText('\n')
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
max = 20
dlg = wxProgressDialog("Progress dialog example",
"An informative message",
max,
frame,
wxPD_CAN_ABORT | wxPD_APP_MODAL)
keepGoing = true
count = 0
while keepGoing and count <= max:
count = count + 1
wxSleep(1)
if count == max / 2:
keepGoing = dlg.Update(count, "Half-time!")
else:
keepGoing = dlg.Update(count)
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestRadioButtons(wxPanel):
def __init__(self, parent, log):
self.log = log
wxPanel.__init__(self, parent, -1)
sampleList = ['zero', 'one', 'two', 'three', 'four', 'five',
'six', 'seven', 'eight']
rb = wxRadioBox(self, 30, "wxRadioBox", wxPoint(35, 30), wxDefaultSize,
sampleList, 3, wxRA_SPECIFY_COLS)
EVT_RADIOBOX(self, 30, self.EvtRadioBox)
rb = wxRadioBox(self, 30, "wxRadioBox", wxPoint(35, 120), wxDefaultSize,
sampleList, 3, wxRA_SPECIFY_COLS | wxNO_BORDER)
EVT_RADIOBOX(self, 30, self.EvtRadioBox)
def EvtRadioBox(self, event):
self.log.WriteText('EvtRadioBox: %d\n' % event.GetInt())
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestRadioButtons(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
A radio box item is used to select one of number of mutually exclusive choices. It is displayed as a vertical column or horizontal row of labelled buttons.
wxRadioBox()
----------------------
Default constructor.
wxRadioBox(wxWindow* parent, wxWindowID id, const wxString& label, const wxPoint& point = wxDefaultPosition, const wxSize& size = wxDefaultSize, int n = 0, const wxString choices[] = NULL, int majorDimension = 0, long style = wxRA_SPECIFY_COLS, const wxValidator& validator = wxDefaultValidator, const wxString& name = "radioBox")
Constructor, creating and showing a radiobox.
Parameters
-------------------
parent = Parent window. Must not be NULL.
id = Window identifier. A value of -1 indicates a default value.
label = Label for the static box surrounding the radio buttons.
pos = Window position. If the position (-1, -1) is specified then a default position is chosen.
size = Window size. If the default size (-1, -1) is specified then a default size is chosen.
n = Number of choices with which to initialize the radiobox.
choices = An array of choices with which to initialize the radiobox.
majorDimension = Specifies the maximum number of rows (if style contains wxRA_SPECIFY_ROWS) or columns (if style contains wxRA_SPECIFY_COLS) for a two-dimensional radiobox.
style = Window style. See wxRadioBox.
validator = Window validator.
name = Window name.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestSashWindow(wxPanel):
ID_WINDOW_TOP = 5100
ID_WINDOW_LEFT1 = 5101
ID_WINDOW_LEFT2 = 5102
ID_WINDOW_BOTTOM = 5103
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
EVT_SASH_DRAGGED_RANGE(self, self.ID_WINDOW_TOP,
self.ID_WINDOW_BOTTOM, self.OnSashDrag)
# Create some layout windows
# A window like a toolbar
win = wxSashLayoutWindow(self, self.ID_WINDOW_TOP, wxDefaultPosition,
wxSize(200, 30), wxNO_BORDER|wxSW_3D)
win.SetDefaultSize(wxSize(1000, 30))
win.SetOrientation(wxLAYOUT_HORIZONTAL)
win.SetAlignment(wxLAYOUT_TOP)
win.SetBackgroundColour(wxColour(255, 0, 0))
win.SetSashVisible(wxSASH_BOTTOM, true)
self.topWindow = win
# A window like a statusbar
win = wxSashLayoutWindow(self, self.ID_WINDOW_BOTTOM,
wxDefaultPosition, wxSize(200, 30),
wxNO_BORDER|wxSW_3D)
win.SetDefaultSize(wxSize(1000, 30))
win.SetOrientation(wxLAYOUT_HORIZONTAL)
win.SetAlignment(wxLAYOUT_BOTTOM)
win.SetBackgroundColour(wxColour(0, 0, 255))
win.SetSashVisible(wxSASH_TOP, true)
self.bottomWindow = win
# A window to the left of the client window
win = wxSashLayoutWindow(self, self.ID_WINDOW_LEFT1,
wxDefaultPosition, wxSize(200, 30),
wxNO_BORDER|wxSW_3D)
win.SetDefaultSize(wxSize(120, 1000))
win.SetOrientation(wxLAYOUT_VERTICAL)
win.SetAlignment(wxLAYOUT_LEFT)
win.SetBackgroundColour(wxColour(0, 255, 0))
win.SetSashVisible(wxSASH_RIGHT, TRUE)
win.SetExtraBorderSize(10)
textWindow = wxTextCtrl(win, -1, "", wxDefaultPosition, wxDefaultSize,
wxTE_MULTILINE|wxSUNKEN_BORDER)
textWindow.SetValue("A help window")
self.leftWindow1 = win
# Another window to the left of the client window
win = wxSashLayoutWindow(self, self.ID_WINDOW_LEFT2,
wxDefaultPosition, wxSize(200, 30),
wxNO_BORDER|wxSW_3D)
win.SetDefaultSize(wxSize(120, 1000))
win.SetOrientation(wxLAYOUT_VERTICAL)
win.SetAlignment(wxLAYOUT_LEFT)
win.SetBackgroundColour(wxColour(0, 255, 255))
win.SetSashVisible(wxSASH_RIGHT, TRUE)
self.leftWindow2 = win
def OnSashDrag(self, event):
if event.GetDragStatus() == wxSASH_STATUS_OUT_OF_RANGE:
return
eID = event.GetId()
if eID == self.ID_WINDOW_TOP:
self.topWindow.SetDefaultSize(wxSize(1000, event.GetDragRect().height))
elif eID == self.ID_WINDOW_LEFT1:
self.leftWindow1.SetDefaultSize(wxSize(event.GetDragRect().width, 1000))
elif eID == self.ID_WINDOW_LEFT2:
self.leftWindow2.SetDefaultSize(wxSize(event.GetDragRect().width, 1000))
elif eID == self.ID_WINDOW_BOTTOM:
self.bottomWindow.SetDefaultSize(wxSize(1000, event.GetDragRect().height))
wxLayoutAlgorithm().LayoutWindow(self)
def OnSize(self, event):
wxLayoutAlgorithm().LayoutWindow(self)
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestSashWindow(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
wxSashLayoutWindow responds to OnCalculateLayout events generated by wxLayoutAlgorithm. It allows the application to use simple accessors to specify how the window should be laid out, rather than having to respond to events. The fact that the class derives from wxSashWindow allows sashes to be used if required, to allow the windows to be user-resizable.
wxSashLayoutWindow()
-------------------------------------------
Default constructor.
wxSashLayoutWindow(wxSashLayoutWindow* parent, wxSashLayoutWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxCLIP_CHILDREN | wxSW_3D, const wxString& name = "layoutWindow")
Constructs a sash layout window, which can be a child of a frame, dialog or any other non-control window.
Parameters
-------------------
parent = Pointer to a parent window.
id = Window identifier. If -1, will automatically create an identifier.
pos = Window position. wxDefaultPosition is (-1, -1) which indicates that wxSashLayoutWindows should generate a default position for the window. If using the wxSashLayoutWindow class directly, supply an actual position.
size = Window size. wxDefaultSize is (-1, -1) which indicates that wxSashLayoutWindows should generate a default size for the window.
style = Window style. For window styles, please see wxSashLayoutWindow.
name = Window name.
"""

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from wxPython.wx import *
from wxPython.lib.dialogs import wxScrolledMessageDialog
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
f = open("Main.py", "r")
msg = f.read()
dlg = wxScrolledMessageDialog(frame, msg, "message test")
dlg.ShowModal()
#---------------------------------------------------------------------------
overview = """\
"""

129
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from wxPython.wx import *
#---------------------------------------------------------------------------
class MyCanvas(wxScrolledWindow):
def __init__(self, parent):
wxScrolledWindow.__init__(self, parent, -1, wxPoint(0, 0), wxPyDefaultSize, wxSUNKEN_BORDER)
self.lines = []
self.maxWidth = 1000
self.maxHeight = 1000
self.SetBackgroundColour(wxNamedColor("WHITE"))
self.Connect(-1, -1, wxEVT_LEFT_DOWN, self.OnLeftButtonEvent)
self.Connect(-1, -1, wxEVT_LEFT_UP, self.OnLeftButtonEvent)
self.Connect(-1, -1, wxEVT_MOTION, self.OnLeftButtonEvent)
self.SetCursor(wxStockCursor(wxCURSOR_PENCIL))
bmp = wxBitmap('bitmaps/test2.bmp', wxBITMAP_TYPE_BMP)
self.bmp = bmp
self.SetScrollbars(20, 20, self.maxWidth/20, self.maxHeight/20)
def getWidth(self):
return self.maxWidth
def getHeight(self):
return self.maxHeight
def OnPaint(self, event):
dc = wxPaintDC(self)
self.PrepareDC(dc)
self.DoDrawing(dc)
def DoDrawing(self, dc):
dc.BeginDrawing()
pen1 = wxPen(wxNamedColour('RED'))
dc.SetPen(pen1)
dc.DrawRectangle(5, 5, 50, 50)
dc.SetBrush(wxLIGHT_GREY_BRUSH)
dc.SetPen(wxPen(wxNamedColour('BLUE'), 4))
dc.DrawRectangle(15, 15, 50, 50)
font = wxFont(14, wxSWISS, wxNORMAL, wxNORMAL)
dc.SetFont(font)
dc.SetTextForeground(wxColour(0xFF, 0x20, 0xFF))
te = dc.GetTextExtent("Hello World")
dc.DrawText("Hello World", 60, 65)
dc.SetPen(wxPen(wxNamedColour('VIOLET'), 4))
dc.DrawLine(5, 65+te[1], 60+te[0], 65+te[1])
lst = [(100,110), (150,110), (150,160), (100,160)]
dc.DrawLines(lst, -60)
dc.SetPen(wxGREY_PEN)
dc.DrawPolygon(lst, 75)
dc.SetPen(wxGREEN_PEN)
dc.DrawSpline(lst+[(100,100)])
dc.DrawBitmap(self.bmp, 200, 20)
dc.SetTextForeground(wxColour(0, 0xFF, 0x80))
dc.DrawText("a bitmap", 200, 85)
self.DrawSavedLines(dc)
dc.EndDrawing()
def DrawSavedLines(self, dc):
dc.SetPen(wxPen(wxNamedColour('MEDIUM FOREST GREEN'), 4))
for line in self.lines:
for coords in line:
apply(dc.DrawLine, coords)
def SetXY(self, event):
self.x, self.y = self.ConvertEventCoords(event)
def ConvertEventCoords(self, event):
xView, yView = self.ViewStart()
xDelta, yDelta = self.GetScrollPixelsPerUnit()
return (event.GetX() + (xView * xDelta),
event.GetY() + (yView * yDelta))
def OnLeftButtonEvent(self, event):
if event.LeftDown():
self.SetXY(event)
self.curLine = []
elif event.Dragging():
dc = wxClientDC(self)
self.PrepareDC(dc)
dc.BeginDrawing()
dc.SetPen(wxPen(wxNamedColour('MEDIUM FOREST GREEN'), 4))
coords = (self.x, self.y) + self.ConvertEventCoords(event)
self.curLine.append(coords)
apply(dc.DrawLine, coords)
self.SetXY(event)
dc.EndDrawing()
elif event.LeftUp():
self.lines.append(self.curLine)
self.curLine = []
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = MyCanvas(nb)
return win
#---------------------------------------------------------------------------
overview = """\
"""

59
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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
dlg = wxSingleChoiceDialog(frame, 'Test Single Choice', 'The Caption',
['zero', 'one', 'two', 'three', 'four', 'five',
'six', 'seven', 'eight'])
if dlg.ShowModal() == wxID_OK:
log.WriteText('You selected: %s\n' % dlg.GetStringSelection())
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
This class represents a dialog that shows a list of strings, and allows the user to select one. Double-clicking on a list item is equivalent to single-clicking and then pressing OK.
wxSingleChoiceDialog()
---------------------------------------------
wxSingleChoiceDialog(wxWindow* parent, const wxString& message, const wxString& caption, int n, const wxString* choices, char** clientData = NULL, long style = wxOK | wxCANCEL | wxCENTRE, const wxPoint& pos = wxDefaultPosition)
Constructor, taking an array of wxString choices and optional client data.
Parameters
-------------------
parent = Parent window.
message = Message to show on the dialog.
caption = The dialog caption.
n = The number of choices.
choices = An array of strings, or a string list, containing the choices.
style = A dialog style (bitlist) containing flags chosen from the following:
wxOK Show an OK button.
wxCANCEL Show a Cancel button.
wxCENTRE Centre the message. Not Windows.
pos = Dialog position.
"""

41
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from wxPython.wx import *
import string
#----------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
self.count = 0
wxStaticText(self, -1, "This is a wxSlider.", wxPoint(45, 15))
slider = wxSlider(self, 100, 25, 1, 100, wxPoint(30, 60),
wxSize(250, -1),
wxSL_HORIZONTAL | wxSL_AUTOTICKS | wxSL_LABELS )
slider.SetTickFreq(5, 1)
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPanel(nb, log)
return win
#----------------------------------------------------------------------
overview = """\
"""

49
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from wxPython.wx import *
import string
#----------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
self.count = 0
wxStaticText(self, -1, "This example uses the wxSpinButton control.",
wxPoint(45, 15))
self.text = wxTextCtrl(self, -1, "1", wxPoint(30, 50), wxSize(60, -1))
h = self.text.GetSize().height
self.spin = wxSpinButton(self, 20, wxPoint(92, 50), wxSize(h*2, h))
self.spin.SetRange(1, 100)
self.spin.SetValue(1)
EVT_SPIN(self, 20, self.OnSpin)
def OnSpin(self, event):
self.text.SetValue(str(event.GetPosition()))
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPanel(nb, log)
return win
#----------------------------------------------------------------------
overview = """\
"""

67
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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
splitter = wxSplitterWindow(nb, -1)
p1 = wxWindow(splitter, -1)
p1.SetBackgroundColour(wxRED)
wxStaticText(p1, -1, "Panel One", wxPoint(5,5)).SetBackgroundColour(wxRED)
p2 = wxWindow(splitter, -1)
p2.SetBackgroundColour(wxBLUE)
wxStaticText(p2, -1, "Panel Two", wxPoint(5,5)).SetBackgroundColour(wxBLUE)
splitter.SplitVertically(p1, p2)
splitter.SetSashPosition(100)
splitter.SetMinimumPaneSize(20)
return splitter
#---------------------------------------------------------------------------
overview = """\
This class manages up to two subwindows. The current view can be split into two programmatically (perhaps from a menu command), and unsplit either programmatically or via the wxSplitterWindow user interface.
wxSplitterWindow()
-----------------------------------
Default constructor.
wxSplitterWindow(wxWindow* parent, wxWindowID id, int x, const wxPoint& point = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style=wxSP_3D, const wxString& name = "splitterWindow")
Constructor for creating the window.
Parameters
-------------------
parent = The parent of the splitter window.
id = The window identifier.
pos = The window position.
size = The window size.
style = The window style. See wxSplitterWindow.
name = The window name.
"""

41
utils/wxPython/demo/wxStaticBitmap.py Normal file
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from wxPython.wx import *
import string
#----------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
self.count = 0
wxStaticText(self, -1, "This is a wxStaticBitmap.", wxPoint(45, 15))
bmp = wxBitmap('bitmaps/test2.bmp', wxBITMAP_TYPE_BMP)
wxStaticBitmap(self, -1, bmp, wxPoint(80, 50),
wxSize(bmp.GetWidth(), bmp.GetHeight()))
#----------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPanel(nb, log)
return win
#----------------------------------------------------------------------
overview = """\
"""

73
utils/wxPython/demo/wxStaticText.py Normal file
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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent):
wxPanel.__init__(self, parent, -1)
wxStaticText(self, -1, "This is an example of static text",
wxPoint(20, 10))
wxStaticText(self, -1, "using the wxStaticText Control.",
wxPoint(20, 30))
wxStaticText(self, -1, "Is this yellow?",
wxPoint(20, 70)).SetBackgroundColour(wxNamedColour('Yellow'))
str = "This is a different font."
text = wxStaticText(self, -1, str, wxPoint(20, 100))
font = wxFont(20, wxSWISS, wxNORMAL, wxNORMAL, false, "Arial")
w, h, d, e = self.GetFullTextExtent(str, font)
text.SetFont(font)
text.SetSize(wxSize(w, h))
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
panel = TestPanel(nb)
return panel
#---------------------------------------------------------------------------
overview = '''\
A static text control displays one or more lines of read-only text.
wxStaticText()
-------------------------
Default constructor.
wxStaticText(wxWindow* parent, wxWindowID id, const wxString& label = "", const wxPoint& pos, const wxSize& size = wxDefaultSize, long style = 0, const wxString& name = "staticText")
Constructor, creating and showing a text control.
Parameters
-------------------
parent = Parent window. Should not be NULL.
id = Control identifier. A value of -1 denotes a default value.
label = Text label.
pos = Window position.
size = Window size.
style = Window style. See wxStaticText.
name = Window name.
'''
#---------------------------------------------------------------------------

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utils/wxPython/demo/wxStatusBar.py Normal file
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from wxPython.wx import *
import time
#---------------------------------------------------------------------------
class CustomStatusBar(wxStatusBar):
def __init__(self, parent, log):
wxStatusBar.__init__(self, parent, -1)
self.SetFieldsCount(3)
self.log = log
self.SetStatusText("A Custom StatusBar...", 0)
self.cb = wxCheckBox(self, 1001, "toggle clock")
EVT_CHECKBOX(self, 1001, self.OnToggleClock)
self.cb.SetValue(true)
# figure out how tall to make it.
dc = wxClientDC(self)
dc.SetFont(self.GetFont())
(w,h) = dc.GetTextExtent('X')
h = int(h * 1.8)
self.SetSize(wxSize(100, h))
# start our timer
self.timer = wxPyTimer(self.Notify)
self.timer.Start(1000)
self.Notify()
# Time-out handler
def Notify(self):
t = time.localtime(time.time())
st = time.strftime("%d-%b-%Y %I:%M:%S", t)
self.SetStatusText(st, 2)
self.log.WriteText("tick...\n")
# the checkbox was clicked
def OnToggleClock(self, event):
if self.cb.GetValue():
self.timer.Start(1000)
self.Notify()
else:
self.timer.Stop()
# reposition the checkbox
def OnSize(self, event):
rect = self.GetFieldRect(1)
self.cb.SetPosition(wxPoint(rect.x+2, rect.y+2))
self.cb.SetSize(wxSize(rect.width-4, rect.height-4))
class TestCustomStatusBar(wxFrame):
def __init__(self, parent, log):
wxFrame.__init__(self, parent, -1, 'Test Custom StatusBar',
wxPoint(0,0), wxSize(500, 300))
wxWindow(self, -1).SetBackgroundColour(wxNamedColour("WHITE"))
self.sb = CustomStatusBar(self, log)
self.SetStatusBar(self.sb)
def OnCloseWindow(self, event):
self.sb.timer.Stop()
del self.sb.timer
self.Destroy()
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestCustomStatusBar(frame, log)
frame.otherWin = win
win.Show(true)
#---------------------------------------------------------------------------
overview = """\
A status bar is a narrow window that can be placed along the bottom of a frame to give small amounts of status information. It can contain one or more fields, one or more of which can be variable length according to the size of the window.
wxStatusBar()
----------------------------
Default constructor.
wxStatusBar(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = 0, const wxString& name = "statusBar")
Constructor, creating the window.
Parameters
-------------------
parent = The window parent, usually a frame.
id = The window identifier. It may take a value of -1 to indicate a default value.
pos = The window position. A value of (-1, -1) indicates a default position, chosen by either the windowing system or wxWindows, depending on platform.
size = The window size. A value of (-1, -1) indicates a default size, chosen by either the windowing system or wxWindows, depending on platform.
style = The window style. See wxStatusBar.
name = The name of the window. This parameter is used to associate a name with the item, allowing the application user to set Motif resource values for individual windows.
"""

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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
wxStaticText(self, -1, "wxTextCtrl", wxPoint(5, 25), wxSize(75, 20))
wxTextCtrl(self, 10, "", wxPoint(80, 25), wxSize(150, 20))
EVT_TEXT(self, 10, self.EvtText)
wxStaticText(self, -1, "Passsword", wxPoint(5, 50), wxSize(75, 20))
wxTextCtrl(self, 20, "", wxPoint(80, 50), wxSize(150, 20), wxTE_PASSWORD)
EVT_TEXT(self, 20, self.EvtText)
wxStaticText(self, -1, "Multi-line", wxPoint(5, 75), wxSize(75, 20))
wxTextCtrl(self, 30, "", wxPoint(80, 75), wxSize(200, 150), wxTE_MULTILINE)
EVT_TEXT(self, 30, self.EvtText)
def EvtText(self, event):
self.log.WriteText('EvtText: %s\n' % event.GetString())
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestPanel(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
"""

50
utils/wxPython/demo/wxTextEntryDialog.py Normal file
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from wxPython.wx import *
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
dlg = wxTextEntryDialog(frame, 'What is your favorite programming language?',
'Duh??', 'Python')
dlg.SetValue("Python is the best!") #### this doesn't work?
if dlg.ShowModal() == wxID_OK:
log.WriteText('You entered: %s\n' % dlg.GetValue())
dlg.Destroy()
#---------------------------------------------------------------------------
overview = """\
This class represents a dialog that requests a one-line text string from the user. It is implemented as a generic wxWindows dialog.
wxTextEntryDialog()
----------------------------------
wxTextEntryDialog(wxWindow* parent, const wxString& message, const wxString& caption = "Please enter text", const wxString& defaultValue = "", long style = wxOK | wxCANCEL | wxCENTRE, const wxPoint& pos = wxDefaultPosition)
Constructor. Use wxTextEntryDialog::ShowModal to show the dialog.
Parameters
-------------------
parent = Parent window.
message = Message to show on the dialog.
defaultValue = The default value, which may be the empty string.
style = A dialog style, specifying the buttons (wxOK, wxCANCEL) and an optional wxCENTRE style.
pos = Dialog position.
"""

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from wxPython.wx import *
import time
#---------------------------------------------------------------------------
class TestTimer(wxTimer):
def __init__(self, log = None):
wxTimer.__init__(self)
self.log = log
def Notify(self):
wxBell()
if self.log:
self.log.WriteText('beep!\n')
#---------------------------------------------------------------------------
_timer = TestTimer()
class TestTimerWin(wxPanel):
def __init__(self, parent, log):
_timer.log = log
wxPanel.__init__(self, parent, -1)
wxStaticText(self, -1, "This is a timer example",
wxPoint(15, 30))
wxButton(self, 11101, ' Start ', wxPoint(15, 75), wxDefaultSize)
wxButton(self, 11102, ' Stop ', wxPoint(115, 75), wxDefaultSize)
EVT_BUTTON(self, 11101, self.OnStart)
EVT_BUTTON(self, 11102, self.OnStop)
def OnStart(self, event):
_timer.Start(1000)
def OnStop(self, event):
_timer.Stop()
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestTimerWin(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
The wxTimer class allows you to execute code at specified intervals. To use it, derive a new class and override the Notify member to perform the required action. Start with Start, stop with Stop, it's as simple as that.
wxTimer()
------------------
Constructor.
"""

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utils/wxPython/demo/wxToolBar.py Normal file
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from wxPython.wx import *
#---------------------------------------------------------------------------
class TestToolBar(wxFrame):
def __init__(self, parent, log):
wxFrame.__init__(self, parent, -1, 'Test ToolBar',
wxPoint(0,0), wxSize(500, 300))
self.log = log
wxWindow(self, -1).SetBackgroundColour(wxNamedColour("WHITE"))
tb = self.CreateToolBar(wxTB_HORIZONTAL|wxNO_BORDER)
#tb = wxToolBar(self, -1, wxDefaultPosition, wxDefaultSize,
# wxTB_HORIZONTAL | wxNO_BORDER | wxTB_FLAT)
#self.SetToolBar(tb)
self.CreateStatusBar()
tb.AddTool(10, wxNoRefBitmap('bitmaps/new.bmp', wxBITMAP_TYPE_BMP),
wxNullBitmap, false, -1, -1, "New", "Long help for 'New'")
EVT_TOOL(self, 10, self.OnToolClick)
EVT_TOOL_RCLICKED(self, 10, self.OnToolRClick)
tb.AddTool(20, wxNoRefBitmap('bitmaps/open.bmp', wxBITMAP_TYPE_BMP),
wxNullBitmap, false, -1, -1, "Open")
EVT_TOOL(self, 20, self.OnToolClick)
EVT_TOOL_RCLICKED(self, 20, self.OnToolRClick)
tb.AddSeparator()
tb.AddTool(30, wxNoRefBitmap('bitmaps/copy.bmp', wxBITMAP_TYPE_BMP),
wxNullBitmap, false, -1, -1, "Copy")
EVT_TOOL(self, 30, self.OnToolClick)
EVT_TOOL_RCLICKED(self, 30, self.OnToolRClick)
tb.AddTool(40, wxNoRefBitmap('bitmaps/paste.bmp', wxBITMAP_TYPE_BMP),
wxNullBitmap, false, -1, -1, "Paste")
EVT_TOOL(self, 40, self.OnToolClick)
EVT_TOOL_RCLICKED(self, 40, self.OnToolRClick)
tb.AddSeparator()
tb.AddTool(50, wxNoRefBitmap('bitmaps/tog1.bmp', wxBITMAP_TYPE_BMP),
wxNullBitmap, true, -1, -1, "Toggle this")
EVT_TOOL(self, 50, self.OnToolClick)
EVT_TOOL_RCLICKED(self, 50, self.OnToolRClick)
tb.AddTool(60, wxNoRefBitmap('bitmaps/tog1.bmp', wxBITMAP_TYPE_BMP),
wxNoRefBitmap('bitmaps/tog2.bmp', wxBITMAP_TYPE_BMP),
true, -1, -1, "Toggle with 2 bitmaps")
EVT_TOOL(self, 60, self.OnToolClick)
EVT_TOOL_RCLICKED(self, 60, self.OnToolRClick)
tb.Realize()
def OnCloseWindow(self, event):
self.Destroy()
def OnToolClick(self, event):
self.log.WriteText("tool %s clicked\n" % event.GetId())
def OnToolRClick(self, event):
self.log.WriteText("tool %s right-clicked\n" % event.GetId())
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestToolBar(frame, log)
frame.otherWin = win
win.Show(true)
#---------------------------------------------------------------------------
overview = """\
The name wxToolBar is defined to be a synonym for one of the following classes:
wxToolBar95 The native Windows 95 toolbar. Used on Windows 95, NT 4 and above.
wxToolBarMSW A Windows implementation. Used on 16-bit Windows.
wxToolBarGTK The GTK toolbar.
wxToolBarSimple A simple implementation, with scrolling. Used on platforms with no native toolbar control, or where scrolling is required.
wxToolBar()
-----------------------
Default constructor.
wxToolBar(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxTB_HORIZONTAL | wxNO_BORDER, const wxString& name = wxPanelNameStr)
Constructs a toolbar.
Parameters
-------------------
parent = Pointer to a parent window.
id = Window identifier. If -1, will automatically create an identifier.
pos = Window position. wxDefaultPosition is (-1, -1) which indicates that wxWindows should generate a default position for the window. If using the wxWindow class directly, supply an actual position.
size = Window size. wxDefaultSize is (-1, -1) which indicates that wxWindows should generate a default size for the window.
style = Window style. See wxToolBar for details.
name = Window name.
"""

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utils/wxPython/demo/wxTreeCtrl.py Normal file
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from wxPython.wx import *
import string
#---------------------------------------------------------------------------
class TestTreeCtrlPanel(wxPanel):
def __init__(self, parent, log):
wxPanel.__init__(self, parent, -1)
self.log = log
tID = NewId()
self.tree = wxTreeCtrl(self, tID, wxDefaultPosition, wxDefaultSize,
wxTR_HAS_BUTTONS | wxTR_EDIT_LABELS)
self.root = self.tree.AddRoot("The Root Item")
for x in range(15):
child = self.tree.AppendItem(self.root, "Item %d" % x)
for y in range(5):
last = self.tree.AppendItem(child, "item %d-%s" % (x, chr(ord("a")+y)))
for z in range(5):
self.tree.AppendItem(last, "item %d-%s-%d" % (x, chr(ord("a")+y), z))
self.tree.Expand(self.root)
EVT_TREE_ITEM_EXPANDED (self, tID, self.OnItemExpanded)
EVT_TREE_ITEM_COLLAPSED (self, tID, self.OnItemCollapsed)
EVT_TREE_SEL_CHANGED (self, tID, self.OnSelChanged)
EVT_TREE_BEGIN_LABEL_EDIT(self, tID, self.OnBeginEdit)
EVT_TREE_END_LABEL_EDIT (self, tID, self.OnEndEdit)
EVT_LEFT_DCLICK(self.tree, self.OnLeftDClick)
EVT_RIGHT_DOWN(self.tree, self.OnRightClick)
EVT_RIGHT_UP(self.tree, self.OnRightUp)
def OnRightClick(self, event):
(x,y) = event.Position();
item = self.tree.HitTest(wxPoint(x,y))
self.log.WriteText("OnRightClick: %s\n" % self.tree.GetItemText(item))
self.tree.SelectItem(item)
def OnRightUp(self, event):
(x,y) = event.Position();
item = self.tree.HitTest(wxPoint(x,y))
self.log.WriteText("OnRightUp: %s (manually starting label edit)\n"
% self.tree.GetItemText(item))
self.tree.EditLabel(item)
def OnBeginEdit(self, event):
self.log.WriteText("OnBeginEdit\n")
# show how to prevent edit...
if self.tree.GetItemText(event.GetItem()) == "The Root Item":
wxBell()
self.log.WriteText("You can't edit this one...\n")
event.Veto()
def OnEndEdit(self, event):
self.log.WriteText("OnEndEdit\n")
# show how to reject edit, we'll not allow any digits
for x in event.GetLabel():
if x in string.digits:
self.log.WriteText("You can't enter digits...\n")
event.Veto()
return
def OnLeftDClick(self, event):
(x,y) = event.Position();
item = self.tree.HitTest(wxPoint(x,y))
self.log.WriteText("OnLeftDClick: %s\n" % self.tree.GetItemText(item))
def OnSize(self, event):
w,h = self.GetClientSizeTuple()
self.tree.SetDimensions(0, 0, w, h)
def OnItemExpanded(self, event):
item = event.GetItem()
self.log.WriteText("OnItemExpanded: %s\n" % self.tree.GetItemText(item))
def OnItemCollapsed(self, event):
item = event.GetItem()
self.log.WriteText("OnItemCollapsed: %s\n" % self.tree.GetItemText(item))
def OnSelChanged(self, event):
self.item = event.GetItem()
self.log.WriteText("OnSelChanged: %s\n" % self.tree.GetItemText(self.item))
#---------------------------------------------------------------------------
def runTest(frame, nb, log):
win = TestTreeCtrlPanel(nb, log)
return win
#---------------------------------------------------------------------------
overview = """\
A tree control presents information as a hierarchy, with items that may be expanded to show further items. Items in a tree control are referenced by wxTreeItemId handles.
wxTreeCtrl()
-------------------------
Default constructor.
wxTreeCtrl(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxTR_HAS_BUTTONS, const wxValidator& validator = wxDefaultValidator, const wxString& name = "listCtrl")
Constructor, creating and showing a tree control.
Parameters
-------------------
parent = Parent window. Must not be NULL.
id = Window identifier. A value of -1 indicates a default value.
pos = Window position.
size = Window size. If the default size (-1, -1) is specified then the window is sized appropriately.
style = Window style. See wxTreeCtrl.
validator = Window validator.
name = Window name.
"""

7
utils/wxPython/distrib/.cvsignore Normal file
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*.gz
*.rpm
*.zip
build.pyc
filelist
wxPython.spec
wxp2.wse

5
utils/wxPython/distrib/.rpmrc Normal file
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sourcedir : .
builddir : .
rpmdir : .
srcrpmdir : .

767
utils/wxPython/distrib/build.py Executable file
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#!/usr/bin/env python
#----------------------------------------------------------------------------
# Name: build.py
# Purpose: This script is used to build wxPython. It reads a build
# configuration file in the requested project directory and
# based on the contents of the file can build Makefiles for
# unix or win32, and can execute make with various options
# potentially automating the entire build/install/clean process
# from a single command.
#
# Author: Robin Dunn
#
# Created: 18-Aug-1999
# RCS-ID: $Id$
# Copyright: (c) 1999 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------------
"""
build.py
This script is used to build wxPython. It reads a build configuration
file in the requested project directory and based on the contents of
the file can build Makefiles for unix or win32, and can execute make
with various options potentially automating the entire
build/install/clean process from a single command.
The default action is to build the Makefile and exit.
Options
-C dir CD to dir before doing anything
-B file Use file as the build configuration (default ./build.cfg)
-M file Use file as the name of the makefile to create
(default Makefile)
-b Build the module (runs make)
-i Install the module (runs make install)
-c Cleanup (runs make clean)
-u Uninstall (runs make uninstall)
-h Show help and exit
Configuration Files
The build configuration file lists targets, source files and options
for the the build process. The contents of the build.cfg are used to
dynamically generate the Makefile.
To prevent you from getting screwed when the default build.cfg is
updated, you can override the values in build.cfg by putting your
custom definitions in a file named build.local. You can also place a
build.local file in the parent directory, or even in the grandparent
directory for project-wide overrides. Finally, command-line arguments
of the form NAME=VALUE can also be used to override simple configuration
values. The order of evaluation is:
0. comman-line flags (-M, -b, etc.)
1. ./build.cfg
2. ../../build.local (if present)
3. ../build.local (if present)
4. ./build.local (if present)
5. command-line NAME=VALUEs
The config files are actually just Python files that get exec'ed in a
separate namespace which is then used later as a configuration object.
This keeps the build script simple in that it doesn't have to parse
anything, and the config files can be much more than just names and
values as pretty much any python code can be executed. The global
variables set in the config namespace are what are used later as
configuation values.
Configuration Options
The following variables can be set in the config files. Only a few are
required, the rest will either have suitable defaults or will be
calculated from your current Python runtime environment.
MODULE The name of the extension module to produce
SWIGFILES A list of files that should be run through SWIG
SWIGFLAGS Flags for SWIG
SOURCES Other C/C++ sources that should be part of the module
PYFILES Other Python files that should be installed with the module
CFLAGS Flags to be used by the compiler
LFLAGS Flags to be used at the link step
LIBS Libraries to be linked with
OTHERCFLAGS Extra flags to append to CFLAGS
OTHERLFLAGS Extra flags to append to LFLAGS
OTHERSWIGFLAGS Extra flags to append to SWIGFLAGS
OTHERLIBS Other libraries to be linked with, in addition to LIBS
OTHERTARGETS Other targets to be placed on the default rule line
OTHERINSTALLTARGETS
Other targets to be placed on the install rule line
OTHERRULES This text is placed at the end of the makefile and
will typically be used for adding rules and such
DEFAULTRULE Text to be used for the default rule in the makefile
TARGETDIR Destination for the install step
MAKE The make program to use
MAKEFILE The name of the makefile
runBuild Setting this to 1 is eqivalent to the -b flag
runInstall Setting this to 1 is eqivalent to the -i flag
runClean Setting this to 1 is eqivalent to the -c flag
runUninstall Setting this to 1 is eqivalent to the -u flag
PYVERSION Version number of Python used in pathnames
PYPREFIX The root of the Python install
EXECPREFIX The root of the Python install for binary files
PYTHONLIB The Python link library
"""
import sys, os, string, getopt
#----------------------------------------------------------------------------
# This is really the wxPython version number, and will be placed in the
# Makefiles for use with the distribution related targets.
__version__ = '2.1b3'
#----------------------------------------------------------------------------
def main(args):
try:
opts, args = getopt.getopt(args[1:], 'C:B:M:bicu')
except getopt.error:
usage()
sys.exit(1)
if not os.environ.has_key('WXWIN'):
print "WARNING: WXWIN is not set in the environment. WXDIR may not\n"\
" be set properly in the makefile, you will have to \n"\
" set the environment variable or override in build.local."
bldCfg = 'build.cfg'
bldCfgLocal = 'build.local'
MAKEFILE = 'Makefile'
runBuild = 0
runInstall = 0
runClean = 0
runUninstall = 0
for flag, value in opts:
if flag == '-C': os.chdir(value)
elif flag == '-B': bldCfgFile = value
elif flag == '-M': makefile = value
elif flag == '-b': runBuild = 1
elif flag == '-c': runClean = 1
elif flag == '-i': runInstall = 1
elif flag == '-u': runUninstall = 1
elif flag == '-h': usage(); sys.exit(1)
else: usage(); sys.exit(1)
config = BuildConfig(bldCfg = bldCfg,
bldCfgLocal = bldCfgLocal,
MAKEFILE = MAKEFILE,
runBuild = runBuild,
runInstall = runInstall,
runClean = runClean,
runUninstall = runUninstall)
if config.readConfigFiles(args):
config.doFixups()
config.makeMakefile()
err = 0
if config.runBuild:
cmd = "%s -f %s" % (config.MAKE, config.MAKEFILE)
print "Running:", cmd
err = os.system(cmd)
if not err and config.runInstall:
cmd = "%s -f %s install" % (config.MAKE, config.MAKEFILE)
print "Running:", cmd
err = os.system(cmd)
if not err and config.runClean:
cmd = "%s -f %s clean" % (config.MAKE, config.MAKEFILE)
print "Running:", cmd
err = os.system(cmd)
if not err and config.runUninstall:
cmd = "%s -f %s uninstall" % (config.MAKE, config.MAKEFILE)
print "Running:", cmd
err = os.system(cmd)
#----------------------------------------------------------------------------
def usage():
print __doc__
#----------------------------------------------------------------------------
def swapslash(st):
if sys.platform != 'win32':
st = string.join(string.split(st, '\\'), '/')
return st
#----------------------------------------------------------------------------
def splitlines(st):
return string.join(string.split(string.strip(st), ' '), ' \\\n\t')
#----------------------------------------------------------------------------
class BuildConfig:
def __init__(self, **kw):
self.__dict__.update(kw)
self.setDefaults()
#------------------------------------------------------------
def setDefaults(self):
self.VERSION = __version__
self.MODULE = ''
self.SWIGFILES = []
self.SWIGFLAGS = '-c++ -shadow -python -keyword -dnone -I$(WXPSRCDIR)'
self.SOURCES = []
self.PYFILES = []
self.LFLAGS = ''
self.OTHERCFLAGS = ''
self.OTHERLFLAGS = ''
self.OTHERSWIGFLAGS = ''
self.OTHERLIBS = ''
self.OTHERTARGETS = ''
self.OTHERINSTALLTARGETS = ''
self.OTHERUNINSTALLTARGETS = ''
self.OTHERRULES = ''
self.DEFAULTRULE = 'default: $(GENCODEDIR) $(TARGET)'
self.PYVERSION = sys.version[:3]
self.PYPREFIX = sys.prefix
self.EXECPREFIX = sys.exec_prefix
self.WXDIR = '$(WXWIN)'
self.FINAL = '0'
self.WXP_USE_THREAD = '1'
self.WXUSINGDLL = '1'
self.OTHERDEP = ''
self.WXPSRCDIR = '$(WXDIR)/utils/wxPython/src'
if sys.platform == 'win32':
self.MAKE = 'nmake'
self.PYTHONLIB = '$(PYPREFIX)\\libs\\python15.lib'
self.TARGETDIR = '$(PYPREFIX)\\wxPython'
self.LIBS = '$(PYTHONLIB) $(WXPSRCDIR)\wxc.lib'
self.GENCODEDIR = 'msw'
self.SWIGTOOLKITFLAG = '-D__WXMSW__'
self.OBJEXT = '.obj'
self.TARGET = '$(MODULE).pyd'
self.CFLAGS = '-I$(PYPREFIX)\include -I$(WXPSRCDIR) -I. /Fp$(MODULE).pch /YXhelpers.h -DSWIG_GLOBAL -DHAVE_CONFIG_H $(THREAD) '
self.LFLAGS = '$(DEBUGLFLAGS) /DLL /subsystem:windows,3.50 /machine:I386 /nologo'
self.RESFILE = ''
self.RESRULE = ''
self.OVERRIDEFLAGS = '/GX-'
self.RMCMD = '-erase '
self.WXPSRCDIR = os.path.normpath(self.WXPSRCDIR)
else:
self.MAKE = 'make'
self.PYLIB = '$(EXECPREFIX)/lib/python$(PYVERSION)'
self.LIBPL = '$(PYLIB)/config'
self.PYTHONLIB = '$(LIBPL)/libpython$(PYVERSION).a'
self.TARGETDIR = '$(EXECPREFIX)/lib/python$(PYVERSION)/site-packages/wxPython'
self.TARGET = '$(MODULE)module$(SO)'
self.OBJEXT = '.o'
self.HELPERLIB = 'wxPyHelpers'
self.HELPERLIBDIR = '/usr/local/lib'
self.CFLAGS = '-DSWIG_GLOBAL -DHAVE_CONFIG_H $(THREAD) -I. '\
'`wx-config --cflags` -I$(PYINCLUDE) -I$(EXECINCLUDE) '\
'-I$(WXPSRCDIR)'
self.LFLAGS = '-L$(WXPSRCDIR) `wx-config --libs`'
self.LIBS = '-l$(HELPERLIB)'
self.RMCMD = '-rm -f '
# **** What to do when I start supporting Motif, etc.???
self.GENCODEDIR = 'gtk'
self.SWIGTOOLKITFLAG = '-D__WXGTK__'
# Extract a few things from Python's Makefile...
try:
filename = os.path.join(self.EXECPREFIX,
'lib/python'+self.PYVERSION,
'config/Makefile')
mfText = string.split(open(filename, 'r').read(), '\n')
except IOError:
raise SystemExit, "Python development files not found"
self.CCC = self.findMFValue(mfText, 'CCC')
self.CC = self.findMFValue(mfText, 'CC')
self.OPT = self.findMFValue(mfText, 'OPT')
self.SO = self.findMFValue(mfText, 'SO')
self.LDSHARED = self.findMFValue(mfText, 'LDSHARED')
self.CCSHARED = self.findMFValue(mfText, 'CCSHARED')
#self.LINKFORSHARED = self.findMFValue(mfText, 'LINKFORSHARED')
#self. = self.findMFValue(mfText, '')
#self. = self.findMFValue(mfText, '')
# The majority of cases will require LDSHARED to be
# modified to use the C++ driver instead of the C driver
# for linking. We'll try to do it here and if we goof up
# then the user can correct it in their build.local file.
self.LDSHARED = string.join(['$(CCC)'] +
string.split(self.LDSHARED, ' ')[1:],
' ')
#------------------------------------------------------------
def doFixups(self):
# This is called after the config files have been evaluated
# so we can do some sanity checking...
if sys.platform != 'win32':
if not self.CCC:
print "Warning: C++ compiler not specified (CCC). Assuming c++"
self.CCC = 'c++'
if not self.CC:
print "Warning: C compiler not specified (CC). Assuming cc"
self.CC = 'cc'
#------------------------------------------------------------
def findMFValue(self, mfText, st):
# Find line begining with st= and return the value
# Regex would probably be to cooler way to do this, but
# I think this is the most understandable.
for line in mfText:
if string.find(line, st+'=') == 0:
st = string.strip(line[len(st)+1:])
return st
return None
#------------------------------------------------------------
def makeMakefile(self):
# make a list of object file names
objects = ""
for name in self.SWIGFILES:
objects = objects + os.path.splitext(name)[0] + self.OBJEXT + ' '
for name in self.SOURCES:
obj = os.path.basename(name)
objects = objects + os.path.splitext(obj)[0] + self.OBJEXT + ' '
self.OBJECTS = splitlines(objects)
# now build the text for the dependencies
depends = ""
for name in self.SWIGFILES:
text = '$(GENCODEDIR)/%s.cpp $(GENCODEDIR)/%s.py : %s.i\n' \
'$(TARGETDIR)\\%s.py : $(GENCODEDIR)\\%s.py\n' % \
tuple([os.path.splitext(name)[0]] * 5)
depends = depends + text
for name in self.PYFILES:
text = '$(TARGETDIR)\\%s.py : %s.py\n' % \
tuple([os.path.splitext(name)[0]] * 2)
depends = depends + text
self.DEPENDS = swapslash(depends)
# and the list of .py files
pymodules = ""
for name in self.SWIGFILES:
pymodules = pymodules + '$(TARGETDIR)\\%s.py ' % os.path.splitext(name)[0]
for name in self.PYFILES:
pymodules = pymodules + '$(TARGETDIR)\\%s.py ' % os.path.splitext(name)[0]
self.PYMODULES = splitlines(swapslash(pymodules))
# now make a list of the python files that would need uninstalled
pycleanup = ""
for name in self.SWIGFILES:
pycleanup = pycleanup + self.makeCleanupList(name)
for name in self.PYFILES:
pycleanup = pycleanup + self.makeCleanupList(name)
self.PYCLEANUP = swapslash(pycleanup)
# finally, build the makefile
if sys.platform == 'win32':
if self.RESFILE:
self.RESFILE = '$(MODULE).res'
self.RESRULE = '$(MODULE).res : $(MODULE).rc $(WXDIR)\\include\\wx\\msw\\wx.rc\n\t'\
'$(rc) -r /i$(WXDIR)\\include -fo$@ $(MODULE).rc'
text = win32Template % self.__dict__
else:
text = unixTemplate % self.__dict__
f = open(self.MAKEFILE, 'w')
f.write(text)
f.close()
print "Makefile created: ", self.MAKEFILE
#------------------------------------------------------------
def makeCleanupList(self, name):
st = ""
st = st + '\t%s$(TARGETDIR)\\%s.py\n' % (self.RMCMD, os.path.splitext(name)[0])
st = st + '\t%s$(TARGETDIR)\\%s.pyc\n' % (self.RMCMD, os.path.splitext(name)[0])
st = st + '\t%s$(TARGETDIR)\\%s.pyo\n' % (self.RMCMD, os.path.splitext(name)[0])
return st
#------------------------------------------------------------
def readConfigFiles(self, args):
return self.processFile(self.bldCfg, 1) and \
self.processFile(os.path.join('../..', self.bldCfgLocal)) and \
self.processFile(os.path.join('..', self.bldCfgLocal)) and \
self.processFile(os.path.join('.', self.bldCfgLocal)) and \
self.processArgs(args)
#------------------------------------------------------------
def processFile(self, filename, required=0):
try:
text = open(filename, 'r').read()
except IOError:
if required:
print "Unable to open %s" % filename
return 0
else:
return 1
try:
exec(text, self.__dict__)
except:
print "Error evaluating %s" % filename
import traceback
traceback.print_exc()
return 0
return 1
#------------------------------------------------------------
def processArgs(self, args):
try:
for st in args:
pair = string.split(st, '=')
name = pair[0]
value = pair[1]
self.__dict__[name] = value
except:
print "Error parsing command-line: %s" % st
return 0
return 1
#------------------------------------------------------------
#----------------------------------------------------------------------------
#----------------------------------------------------------------------------
#----------------------------------------------------------------------------
win32Template = '''
#----------------------------------------------------------------------
# This makefile was autogenerated from build.py. Your changes will be
# lost if the generator is run again. You have been warned.
#----------------------------------------------------------------------
WXDIR = %(WXDIR)s
VERSION = %(VERSION)s
MODULE = %(MODULE)s
SWIGFLAGS = %(SWIGFLAGS)s %(SWIGTOOLKITFLAG)s %(OTHERSWIGFLAGS)s
CFLAGS = %(CFLAGS)s
LFLAGS = %(LFLAGS)s
PYVERSION = %(PYVERSION)s
PYPREFIX = %(PYPREFIX)s
EXECPREFIX = %(EXECPREFIX)s
PYTHONLIB = %(PYTHONLIB)s
FINAL = %(FINAL)s
WXP_USE_THREAD = %(WXP_USE_THREAD)s
WXUSINGDLL = %(WXUSINGDLL)s
GENCODEDIR = %(GENCODEDIR)s
RESFILE = %(RESFILE)s
WXPSRCDIR = %(WXPSRCDIR)s
TARGETDIR = %(TARGETDIR)s
OBJECTS = %(OBJECTS)s
PYMODULES = %(PYMODULES)s
TARGET = %(TARGET)s
!if "$(FINAL)" == "0"
DEBUGLFLAGS = /DEBUG /INCREMENTAL:YES
!else
DEBUGLFLAGS = /INCREMENTAL:NO
!endif
!if "$(WXP_USE_THREAD)" == "1"
THREAD=-DWXP_USE_THREAD=1
!endif
NOPCH=1
OVERRIDEFLAGS=%(OVERRIDEFLAGS)s
EXTRAFLAGS = $(CFLAGS) %(OTHERCFLAGS)s
LFLAGS = %(LFLAGS)s %(OTHERLFLAGS)s
EXTRALIBS = %(LIBS)s %(OTHERLIBS)s
#----------------------------------------------------------------------
!include $(WXDIR)\\src\\makevc.env
#----------------------------------------------------------------------
%(DEFAULTRULE)s %(OTHERTARGETS)s
install: $(TARGETDIR) $(TARGETDIR)\\$(TARGET) pycfiles %(OTHERINSTALLTARGETS)s
clean:
-erase *.obj
-erase *.exe
-erase *.res
-erase *.map
-erase *.sbr
-erase *.pdb
-erase *.pch
-erase $(MODULE).exp
-erase $(MODULE).lib
-erase $(MODULE).ilk
-erase $(TARGET)
uninstall: %(OTHERUNINSTALLTARGETS)s
-erase $(TARGETDIR)\\$(TARGET)
%(PYCLEANUP)s
#----------------------------------------------------------------------
# implicit rule for compiling .cpp and .c files
{}.cpp{}.obj:
$(cc) @<<
$(CPPFLAGS) /c /Tp $<
<<
{$(GENCODEDIR)}.cpp{}.obj:
$(cc) @<<
$(CPPFLAGS) /c /Tp $<
<<
{}.c{}.obj:
$(cc) @<<
$(CPPFLAGS) /c $<
<<
.SUFFIXES : .i .py
# Implicit rules to run SWIG
{}.i{$(GENCODEDIR)}.cpp:
swig $(SWIGFLAGS) -c -o $@ $<
{}.i{$(GENCODEDIR)}.py:
swig $(SWIGFLAGS) -c -o $(GENCODEDIR)\\tmp_wrap.cpp $<
-erase $(GENCODEDIR)\\tmp_wrap.cpp
{$(GENCODEDIR)}.py{$(TARGETDIR)}.py:
copy $< $@
{}.py{$(TARGETDIR)}.py:
copy $< $@
#----------------------------------------------------------------------
$(TARGET) : $(DUMMYOBJ) $(WXLIB) $(OBJECTS) $(RESFILE)
$(link) @<<
/out:$@
$(LFLAGS) /def:$(MODULE).def /implib:./$(MODULE).lib
$(DUMMYOBJ) $(OBJECTS) $(RESFILE)
$(LIBS)
<<
%(RESRULE)s
$(TARGETDIR)\\$(TARGET) : $(TARGET)
copy $(TARGET) $@
pycfiles : $(PYMODULES)
$(EXECPREFIX)\\python $(PYPREFIX)\\Lib\\compileall.py -l $(TARGETDIR)
$(EXECPREFIX)\\python -O $(PYPREFIX)\Lib\\compileall.py -l $(TARGETDIR)
$(TARGETDIR) :
mkdir $(TARGETDIR)
$(GENCODEDIR):
mkdir $(GENCODEDIR)
#----------------------------------------------------------------------
%(DEPENDS)s
#----------------------------------------------------------------------
showflags:
@echo CPPFLAGS:
@echo $(CPPFLAGS)
@echo LFLAGS:
@echo $(LFLAGS)
%(OTHERRULES)s
'''
#----------------------------------------------------------------------------
#----------------------------------------------------------------------------
#----------------------------------------------------------------------------
unixTemplate = '''
#----------------------------------------------------------------------
# This makefile was autogenerated from build.py. Your changes will be
# lost if the generator is run again. You have been warned.
#----------------------------------------------------------------------
WXDIR = %(WXDIR)s
VERSION = %(VERSION)s
MODULE = %(MODULE)s
SWIGFLAGS = %(SWIGFLAGS)s %(SWIGTOOLKITFLAG)s %(OTHERSWIGFLAGS)s
CFLAGS = %(CFLAGS)s $(OPT) %(OTHERCFLAGS)s
LFLAGS = %(LFLAGS)s %(OTHERLFLAGS)s
LIBS = %(LIBS)s %(OTHERLIBS)s
PYVERSION = %(PYVERSION)s
PYPREFIX = %(PYPREFIX)s
EXECPREFIX = %(EXECPREFIX)s
PYINCLUDE = $(PYPREFIX)/include/python$(PYVERSION)
EXECINCLUDE = $(EXECPREFIX)/include/python$(PYVERSION)
PYLIB = %(PYLIB)s
LIBPL = %(LIBPL)s
PYTHONLIB = %(PYTHONLIB)s
FINAL = %(FINAL)s
WXP_USE_THREAD = %(WXP_USE_THREAD)s
GENCODEDIR = %(GENCODEDIR)s
WXPSRCDIR = %(WXPSRCDIR)s
HELPERLIB = %(HELPERLIB)s
HELPERLIBDIR = %(HELPERLIBDIR)s
TARGETDIR = %(TARGETDIR)s
CCC = %(CCC)s
CC = %(CC)s
OPT = %(OPT)s
SO = %(SO)s
LDSHARED = %(LDSHARED)s
CCSHARED = %(CCSHARED)s
OBJECTS = %(OBJECTS)s
PYMODULES = %(PYMODULES)s
TARGET = %(TARGET)s
ifeq ($(WXP_USE_THREAD), 1)
THREAD=-DWXP_USE_THREAD
endif
#----------------------------------------------------------------------
%(DEFAULTRULE)s %(OTHERTARGETS)s
install: $(TARGETDIR) $(TARGETDIR)/$(TARGET) pycfiles %(OTHERINSTALLTARGETS)s
clean:
-rm -f *.o *$(SO) *~
-rm -f $(TARGET)
uninstall: %(OTHERUNINSTALLTARGETS)s
-rm -f $(TARGETDIR)/$(TARGET)
%(PYCLEANUP)s
#----------------------------------------------------------------------
%%.o : %%.cpp
$(CCC) $(CCSHARED) $(CFLAGS) $(OTHERCFLAGS) -c $<
%%.o : $(GENCODEDIR)/%%.cpp
$(CCC) $(CCSHARED) $(CFLAGS) $(OTHERCFLAGS) -c $<
%%.o : %%.c
$(CC) $(CCSHARED) $(CFLAGS) $(OTHERCFLAGS) -c $<
%%.o : $(GENCODEDIR)/%%.c
$(CC) $(CCSHARED) $(CFLAGS) $(OTHERCFLAGS) -c $<
$(GENCODEDIR)/%%.cpp : %%.i
swig $(SWIGFLAGS) -c -o $@ $<
$(GENCODEDIR)/%%.py : %%.i
swig $(SWIGFLAGS) -c -o $(GENCODEDIR)/tmp_wrap.cpp $<
rm $(GENCODEDIR)/tmp_wrap.cpp
$(TARGETDIR)/%% : %%
cp -f $< $@
$(TARGETDIR)/%% : $(GENCODEDIR)/%%
cp -f $< $@
#----------------------------------------------------------------------
%(DEPENDS)s
#----------------------------------------------------------------------
$(TARGET) : $(OBJECTS)
$(LDSHARED) $(OBJECTS) $(LFLAGS) $(LIBS) $(OTHERLIBS) -o $(TARGET)
pycfiles : $(PYMODULES)
$(EXECPREFIX)/bin/python $(PYLIB)/compileall.py -l $(TARGETDIR)
$(EXECPREFIX)/bin/python -O $(PYLIB)/compileall.py -l $(TARGETDIR)
$(TARGETDIR) :
mkdir $(TARGETDIR)
$(GENCODEDIR):
mkdir $(GENCODEDIR)
#----------------------------------------------------------------------
%(OTHERRULES)s
'''
#----------------------------------------------------------------------------
if __name__ == '__main__':
main(sys.argv)
#----------------------------------------------------------------------------

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#!/bin/bash
if [ -z $1 ]; then
echo "Please specify a version number on the command line."
exit 1
fi
if [ ! -f wxPython.spec.in ]; then
echo "Please run this script from the directory containing the wxPython.spec.in file."
exit 1
fi
strip /usr/lib/python1.5/site-packages/wxPython/*.so
strip /usr/lib/libwxPyHelpers.so
cat wxPython.spec.in | sed s/__VERSION__/$1/g > wxPython.spec
mkdir /usr/doc/wxPython-$1
cp ../README.txt /usr/doc/wxPython-$1
cp ../../../docs/preamble.txt /usr/doc/wxPython-$1
cp ../../../docs/licence.txt /usr/doc/wxPython-$1
cp ../../../docs/licendoc.txt /usr/doc/wxPython-$1
cp ../../../docs/lgpl.txt /usr/doc/wxPython-$1
cp ../../../docs/gpl.txt /usr/doc/wxPython-$1
rpm -bb wxPython.spec
mv /usr/src/redhat/RPMS/*/wxPython*.rpm .
rm -r /usr/doc/wxPython-$1

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#!/bin/bash
#----------------------------------------------------------------------
# Make a source distribution as a tar.gz file. This script should be
# run from the directory that holds the wxPython dir (../..) and be
# given a version number as an parameter. The best way to do this is
# run "make dist" in the wxPython/src/ directory.
#----------------------------------------------------------------------
if [ -z $1 ]; then
echo "Please specify a version number on the command line."
exit 1
fi
if [ ! -d wxPython ]; then
echo "Please run this script from the directory containing the wxPython sources."
exit 1
fi
rm -f wxPython/distrib/filelist
for x in `cat wxPython/distrib/wxPython.rsp`; do
ls $x >> wxPython/distrib/filelist
done
tar cf wxPython/distrib/dist-temp.tar -T wxPython/distrib/filelist
cd wxPython/distrib
tar xf dist-temp.tar
rm dist-temp.tar
mv wxPython wxPython-$1
tar cvf wxPython-$1.tar wxPython-$1
gzip wxPython-$1.tar
rm -rf wxPython-$1

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utils/wxPython/distrib/makexferzip Executable file
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#!/bin/bash
cd ~/wx/utils/wxPython
find . -name "*.py" > filelist
find . -name "*.i" >> filelist
find . -name "*.h" >> filelist
find . -name "*.cpp" >> filelist
cat filelist | zip -r -u -@ xfer.zip

9
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cd %WXWIN%\utils\wxPython
find . -name "*.py" > filelist
find . -name "*.i" >> filelist
find . -name "*.h" >> filelist
find . -name "*.cpp" >> filelist
cat filelist | zip -r -u -@ xfer.zip

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wxPython/*.txt
wxPython/demo/*.py
wxPython/demo/bitmaps/*.bmp
wxPython/demo/bitmaps/*.ico
wxPython/demo/bitmaps/*.gif
wxPython/demo/bitmaps/*.png
wxPython/demo/bitmaps/*.jpg
wxPython/demo/README.txt
wxPython/demo/*.xml
wxPython/distrib/build.py
wxPython/lib/*.py
wxPython/lib/*.txt
wxPython/lib/sizers/*.py
wxPython/lib/sizers/*.txt
wxPython/src/build.cfg
wxPython/src/*.i
wxPython/src/*.py
wxPython/src/*.cpp
wxPython/src/*.c
wxPython/src/*.h
wxPython/src/*.ico
wxPython/src/*.def
wxPython/src/*.rc
wxPython/src/msw/*.cpp
wxPython/src/msw/*.h
wxPython/src/msw/*.py
wxPython/src/gtk/*.cpp
wxPython/src/gtk/*.h
wxPython/src/gtk/*.py
wxpython/src/motif/*.cpp
wxPython/src/motif/*.h
wxPython/src/motif/*.py
wxPython/modules/html/build.cfg
wxPython/modules/html/*.i
wxPython/modules/html/*.py
wxPython/modules/html/*.cpp
wxPython/modules/html/*.c
wxPython/modules/html/*.h
wxPython/modules/html/*.def
wxPython/modules/html/*.rc
wxPython/modules/html/msw/*.cpp
wxPython/modules/html/msw/*.h
wxPython/modules/html/msw/*.py
wxPython/modules/html/gtk/*.cpp
wxPython/modules/html/gtk/*.h
wxPython/modules/html/gtk/*.py
wxPython/modules/glcanvas/build.cfg
wxPython/modules/glcanvas/*.i
wxPython/modules/glcanvas/*.py
wxPython/modules/glcanvas/*.cpp
wxPython/modules/glcanvas/*.c
wxPython/modules/glcanvas/*.h
wxPython/modules/glcanvas/*.def
wxPython/modules/glcanvas/*.rc
wxPython/modules/glcanvas/msw/*.cpp
wxPython/modules/glcanvas/msw/*.h
wxPython/modules/glcanvas/msw/*.py
wxPython/modules/glcanvas/gtk/*.cpp
wxPython/modules/glcanvas/gtk/*.h
wxPython/modules/glcanvas/gtk/*.py
wxPython/modules/utils/build.cfg
wxPython/modules/utils/*.i
wxPython/modules/utils/*.py
wxPython/modules/utils/*.cpp
wxPython/modules/utils/*.c
wxPython/modules/utils/*.h
wxPython/modules/utils/*.def
wxPython/modules/utils/*.rc
wxPython/modules/utils/msw/*.cpp
wxPython/modules/utils/msw/*.h
wxPython/modules/utils/msw/*.py
wxPython/modules/utils/gtk/*.cpp
wxPython/modules/utils/gtk/*.h
wxPython/modules/utils/gtk/*.py
wxPython/modules/ogl/build.cfg
wxPython/modules/ogl/*.i
wxPython/modules/ogl/*.py
wxPython/modules/ogl/*.cpp
wxPython/modules/ogl/*.c
wxPython/modules/ogl/*.h
wxPython/modules/ogl/*.def
wxPython/modules/ogl/*.rc
wxPython/modules/ogl/msw/*.cpp
wxPython/modules/ogl/msw/*.h
wxPython/modules/ogl/msw/*.py
wxPython/modules/ogl/gtk/*.cpp
wxPython/modules/ogl/gtk/*.h
wxPython/modules/ogl/gtk/*.py

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Summary: Cross platform GUI toolkit for use with the Python language.
Name: wxPython
Version: __VERSION__
Release: 1
Copyright: wxWindows
Group: Development/Languages/Python
Source: http://alldunn.com/wxPython/wxPython-__VERSION__.tar.gz
Packager: Robin Dunn <robin@alldunn.com>
Vendor: Total Control Software
Requires: python >= 1.5.1
Prefix: /usr/lib/python1.5/site-packages
%description
This Python package consists of an extension module that wraps around the
wxWindows C++ class library and provides a cross platform GUI toolkit for
use with Python. Currently supported platforms are Win32 and Unix/GTK/X.
Python is an interpreted, interactive, object-oriented programming language.
Python combines remarkable power with very clear syntax. It has modules,
classes, exceptions, very high level dynamic data types, and dynamic typing.
There are interfaces to many system calls and libraries, and new built-in
modules are easily written in C or C++. Python is also usable as an
extension language for applications that need a programmable interface.
#%prep
#%setup
#cd wxPython-__VERSION__
#make -f Makefile.pre.in boot
#
#%build
#make
#
#
#%install
#make install
%post
/sbin/ldconfig
%postun
/sbin/ldconfig
%files
%doc /usr/doc/wxPython-__VERSION__
/usr/lib/libwxPyHelpers.so
/usr/lib/python1.5/site-packages/wxPython

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@echo off
zip -@ -r wxPython\wxPython-src-%1.zip < wxPython\distrib\wxPython.rsp
mkdir wxPython\docs
copy %WXWIN%\docs\html\wx\*.gif wxPython\docs
copy %WXWIN%\docs\html\wx\*.htm wxPython\docs
copy wxPython\docs\wx.htm wxPython\docs\index.htm
zip -r wxPython\wxPython-docs-%1.zip wxPython\docs
del /y wxPython\docs\*.*
rmdir wxPython\docs
move /R wxPython\*.zip wxPython\distrib

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*.pyc

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from wxPython.wx import *
from layoutf import Layoutf
import string
class wxScrolledMessageDialog(wxDialog):
def __init__(self, parent, msg, caption, pos = None, size = None):
if not pos:
pos = wxDefaultPosition
if not size:
size = wxSize(500,300)
wxDialog.__init__(self, parent, -1, caption, pos, size)
text = wxTextCtrl(self, -1, msg, wxDefaultPosition,
wxDefaultSize,
wxTE_MULTILINE | wxTE_READONLY)
ok = wxButton(self, wxID_OK, "OK")
text.SetConstraints(Layoutf('t=t5#1;b=t5#2;l=l5#1;r=r5#1', (self,ok)))
ok.SetConstraints(Layoutf('b=b5#1;x%w50#1;w!80;h!25', (self,)))
self.SetAutoLayout(TRUE)
self.Layout()
class wxMultipleChoiceDialog(wxDialog):
def __init__(self, parent, msg, title, lst, pos = None, size = None):
if not pos:
pos = wxDefaultPosition
if not size:
size = wxSize(200,200)
wxDialog.__init__(self, parent, -1, title, pos, size)
dc = wxClientDC(self)
height = 0
for line in string.split(msg,'\n'):
height = height + dc.GetTextExtent(msg)[1] + 4
stat = wxStaticText(self, -1, msg)
self.lbox = wxListBox(self, 100, wxDefaultPosition,
wxDefaultSize, lst, wxLB_MULTIPLE)
ok = wxButton(self, wxID_OK, "OK")
cancel = wxButton(self, wxID_CANCEL, "Cancel")
stat.SetConstraints(Layoutf('t=t10#1;l=l5#1;r=r5#1;h!%d' % (height,),
(self,)))
self.lbox.SetConstraints(Layoutf('t=b10#2;l=l5#1;r=r5#1;b=t5#3',
(self, stat, ok)))
ok.SetConstraints(Layoutf('b=b5#1;x%w25#1;w!80;h!25', (self,)))
cancel.SetConstraints(Layoutf('b=b5#1;x%w75#1;w!80;h!25', (self,)))
self.SetAutoLayout(TRUE)
self.lst = lst
self.Layout()
def OnSize(self, event):
self.Layout()
def GetValue(self):
return self.lbox.GetSelections()
def GetValueString(self):
sel = self.lbox.GetSelections()
val = []
for i in sel:
val.append(self.lst[i])
return tuple(val)
if __name__ == '__main__':
class MyFrame(wxFrame):
def __init__(self):
wxFrame.__init__(self, NULL, -1, "hello",
wxDefaultPosition, wxSize(200,200))
wxButton(self, 100, "Multiple Test",wxPoint(0,0))
wxButton(self, 101, "Message Test", wxPoint(0,100))
EVT_BUTTON(self, 100, self.OnMultipleTest)
EVT_BUTTON(self, 101, self.OnMessageTest)
def OnMultipleTest(self, event):
self.lst = [ 'apple', 'pear', 'banana', 'coconut', 'orange',
'etc', 'etc..', 'etc...' ]
dlg = wxMultipleChoiceDialog(self,
"Pick some from\n this list\nblabla",
"m.s.d.", self.lst)
if (dlg.ShowModal() == wxID_OK):
print "Selection:", dlg.GetValue(), " -> ", dlg.GetValueString()
def OnMessageTest(self, event):
import sys;
f = open(sys.argv[0],"r")
msg = f.read()
dlg = wxScrolledMessageDialog(self, msg, "message test")
dlg.ShowModal()
class MyApp(wxApp):
def OnInit(self):
frame = MyFrame()
frame.Show(TRUE)
self.SetTopWindow(frame)
return TRUE
app = MyApp(0)
app.MainLoop()

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utils/wxPython/lib/layoutf.py Normal file
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from wxPython.wx import wxLayoutConstraints,\
wxTop, wxLeft, wxBottom, wxRight, \
wxHeight, wxWidth, wxCentreX, wxCentreY
import re,string
class Layoutf(wxLayoutConstraints):
"""
The class Layoutf(wxLayoutConstraints) presents a simplification
of the wxLayoutConstraints syntax. The name Layoutf is choosen
because of the similarity with C's printf function.
Quick Example:
lc = Layoutf('t=t#1;l=r10#2;r!100;h%h50#1', (self, self.panel))
is equivalent to
lc = wxLayoutContraints()
lc.top.SameAs(self, wxTop)
lc.left.SameAs(self.panel, wxRight, 10)
lc.right.Absolute(100)
lc.height.PercentOf(self, wxHeight, 50)
Usage:
You can give a constraint string to the Layoutf constructor,
or use the 'pack' method. The following are equivalent:
lc = Layoutf('t=t#1;l=r#2;r!100;h%h50#1', (self, self.panel))
and
lc = Layoutf()
lc.pack('t=t#1;l=r#2;r!100;h%h50#1', (self, self.panel))
Besides 'pack' there's also 'debug_pack' which does not set
constraints, but prints traditional wxLayoutConstraint calls to
stdout.
The calls to the Layoutf constructor and pack methods have
the following argument list:
(constraint_string, objects_tuple)
Constraint String syntax:
Constraint directives are separated by semi-colons. You
generally (always?) need four directives to completely describe a
subwindow's location.
A single directive has either of the following forms:
1. <own attribute><compare operation>[numerical argument]
for example r!100 -> lc.right.Absolute(100) )
and w* -> lc.width.AsIs()
2. <own attribute><compare operation>[numerical argument]
#<compare object nr.>
for example t_10#2 (lc.top.Below(<second obj>, 10)
3. <own attribute><compare operation><compare attribute>
[numerical argument]#<compare object nr.>
for example w%h50#2 ( lc.width.PercentOf(<second obj>,
wxHeight, 50) and t=b#1 ( lc.top.SameAs(<first obj>,
wxBottom) )
Which one you need is defined by the <compare operation>
type. The following take type 1 (no object to compare with):
'!': 'Absolute', '?': 'Unconstrained', '*': 'AsIs'
These take type 2 (need to be compared with another object)
'<': 'LeftOf', '>': 'RightOf', '^': 'Above', '_': 'Below'
These take type 3 (need to be compared to another object
attribute)
'=': 'SameAs', '%': 'PercentOf'
For all types, the <own attribute> letter can be any of
't': 'top', 'l': 'left', 'b': 'bottom',
'r': 'right', 'h': 'height', 'w': 'width',
'x': 'centreX', 'y': 'centreY'
If the operation takes an (optional) numerical argument, place it
in [numerical argument]. For type 3 directives, the <compare
attribute> letter can be any of
't': 'wxTop', 'l': 'wxLeft', 'b': 'wxBottom'
'r': 'wxRight', 'h': 'wxHeight', 'w': 'wxWidth',
'x': 'wxCentreX', 'y': 'wxCentreY'
Note that these are the same letters as used for <own attribute>,
so you'll only need to remember one set. Finally, the object
whose attribute is refered to, is specified by #<compare object
nr>, where <compare object nr> is the 1-based (stupid, I know,
but I've gotten used to it) index of the object in the
objects_tuple argument.
Bugs:
Not entirely happy about the logic in the order of arguments
after the <compare operation> character.
Not all wxLayoutConstraint methods are included in the
syntax. However, the type 3 directives are generally the most
used. Further excuse: wxWindows layout constraints are at the
time of this writing not documented.
"""
attr_d = { 't': 'top', 'l': 'left', 'b': 'bottom',
'r': 'right', 'h': 'height', 'w': 'width',
'x': 'centreX', 'y': 'centreY' }
op_d = { '=': 'SameAs', '%': 'PercentOf', '<': 'LeftOf',
'>': 'RightOf', '^': 'Above', '_': 'Below',
'!': 'Absolute', '?': 'Unconstrained', '*': 'AsIs' }
cmp_d = { 't': 'wxTop', 'l': 'wxLeft', 'b': 'wxBottom',
'r': 'wxRight', 'h': 'wxHeight', 'w': 'wxWidth',
'x': 'wxCentreX', 'y': 'wxCentreY' }
rexp1 = re.compile('^\s*([tlrbhwxy])\s*([!\?\*])\s*(\d*)\s*$')
rexp2 = re.compile('^\s*([tlrbhwxy])\s*([=%<>^_])\s*([tlrbhwxy]?)\s*(\d*)\s*#(\d+)\s*$')
def __init__(self,pstr=None,winlist=None):
wxLayoutConstraints.__init__(self)
if pstr:
self.pack(pstr,winlist)
def pack(self, pstr, winlist):
pstr = string.lower(pstr)
for item in string.split(pstr,';'):
m = self.rexp1.match(item)
if m:
g = list(m.groups())
attr = getattr(self, self.attr_d[g[0]])
func = getattr(attr, self.op_d[g[1]])
if g[1] == '!':
func(int(g[2]))
else:
func()
continue
m = self.rexp2.match(item)
if not m: raise ValueError
g = list(m.groups())
attr = getattr(self, self.attr_d[g[0]])
func = getattr(attr, self.op_d[g[1]])
if g[3]: g[3] = int(g[3])
else: g[3] = None;
g[4] = int(g[4]) - 1
if g[1] in '<>^_':
if g[3]: func(winlist[g[4]], g[3])
else: func(winlist[g[4]])
else:
cmp = eval(self.cmp_d[g[2]])
if g[3]: func(winlist[g[4]], cmp, g[3])
else: func(winlist[g[4]], cmp)
def debug_pack(self, pstr, winlist):
pstr = string.lower(pstr)
for item in string.split(pstr,';'):
m = self.rexp1.match(item)
if m:
g = list(m.groups())
attr = getattr(self, self.attr_d[g[0]])
func = getattr(attr, self.op_d[g[1]])
if g[1] == '!':
print "%s.%s.%s(%s)" % \
('self',self.attr_d[g[0]],self.op_d[g[1]],g[2])
else:
print "%s.%s.%s()" % \
('self',self.attr_d[g[0]],self.op_d[g[1]])
continue
m = self.rexp2.match(item)
if not m: raise ValueError
g = list(m.groups())
if g[3]: g[3] = int(g[3])
else: g[3] = 0;
g[4] = int(g[4]) - 1
if g[1] in '<>^_':
if g[3]: print "%s.%s.%s(%s,%d)" % \
('self',self.attr_d[g[0]],self.op_d[g[1]],winlist[g[4]],
g[3])
else: print "%s.%s.%s(%s)" % \
('self',self.attr_d[g[0]],self.op_d[g[1]],winlist[g[4]])
else:
if g[3]: print "%s.%s.%s(%s,%s,%d)" % \
('self',self.attr_d[g[0]],self.op_d[g[1]],winlist[g[4]],
self.cmp_d[g[2]],g[3])
else: print "%s.%s.%s(%s,%s)" % \
('self',self.attr_d[g[0]],self.op_d[g[1]],winlist[g[4]],
self.cmp_d[g[2]])
if __name__=='__main__':
from wxPython.wx import *
class TestLayoutf(wxFrame):
def __init__(self, parent):
wxFrame.__init__(self, parent, -1, 'Test Layout Constraints',
wxPyDefaultPosition, wxSize(500, 300))
self.SetAutoLayout(true)
EVT_BUTTON(self, 100, self.OnButton)
EVT_BUTTON(self, 101, self.OnAbout)
self.panelA = wxWindow(self, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelA.SetBackgroundColour(wxBLUE)
self.panelA.SetConstraints(Layoutf('t=t10#1;l=l10#1;b=b10#1;r%r50#1',(self,)))
self.panelB = wxWindow(self, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelB.SetBackgroundColour(wxRED)
self.panelB.SetConstraints(Layoutf('t=t10#1;r=r10#1;b%b30#1;l>10#2', (self,self.panelA)))
self.panelC = wxWindow(self, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelC.SetBackgroundColour(wxWHITE)
self.panelC.SetConstraints(Layoutf('t_10#3;r=r10#1;b=b10#1;l>10#2', (self,self.panelA,self.panelB)))
b = wxButton(self.panelA, 101, ' About: ')
b.SetConstraints(Layoutf('X=X#1;Y=Y#1;h*;w%w50#1', (self.panelA,)))
b = wxButton(self.panelB, 100, ' Panel B ')
b.SetConstraints(Layoutf('t=t2#1;r=r4#1;h*;w*', (self.panelB,)))
self.panelD = wxWindow(self.panelC, -1, wxPyDefaultPosition, wxPyDefaultSize, wxSIMPLE_BORDER)
self.panelD.SetBackgroundColour(wxGREEN)
self.panelD.SetConstraints(Layoutf('b%h50#1;r%w50#1;h=h#2;w=w#2', (self.panelC, b)))
b = wxButton(self.panelC, 100, ' Panel C ')
b.SetConstraints(Layoutf('t_#1;l>#1;h*;w*', (self.panelD,)))
wxStaticText(self.panelD, -1, "Panel D", wxPoint(4, 4)).SetBackgroundColour(wxGREEN)
def OnButton(self, event):
self.Close(true)
def OnAbout(self, event):
try:
from dialogs import wxScrolledMessageDialog
msg = wxScrolledMessageDialog(self, Layoutf.__doc__, "about")
msg.ShowModal()
except:
print msg
def OnCloseWindow(self, event):
self.Destroy()
class TestApp(wxApp):
def OnInit(self):
frame = TestLayoutf(NULL)
frame.Show(1)
self.SetTopWindow(frame)
return 1
app = TestApp(0)
app.MainLoop()

2
utils/wxPython/lib/sizers/.cvsignore Normal file
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*.pyc

18
utils/wxPython/lib/sizers/__init__.py Normal file
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#----------------------------------------------------------------------------
# Name: __init__.py
# Purpose: The presence of this file turns this directory into a
# Python package.
#
# Author: Robin Dunn
#
# Created: 18-May-1999
# RCS-ID: $Id$
# Copyright: (c) 1998 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------------
from sizer import *
from box import *
from border import *
#----------------------------------------------------------------------------

109
utils/wxPython/lib/sizers/border.py Normal file
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#----------------------------------------------------------------------
# Name: wxPython.lib.sizers.border
# Purpose: A Sizer that wraps an empty border around its contents
#
# Author: Robin Dunn
#
# Created: 9-June-1999
# RCS-ID: $Id$
# Copyright: (c) 1998 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------
from sizer import wxSizer
wxNORTH = 1
wxSOUTH = 2
wxEAST = 4
wxWEST = 8
wxALL = wxNORTH | wxSOUTH | wxEAST | wxWEST
#----------------------------------------------------------------------
class wxBorderSizer(wxSizer):
"""
wxBorderSizer
This sizer provides an empty buffer on one or more sides of it's
contents. It can only hold a single widget, but that can be a
sizer containing other items if you wish.
The sizer is constructed with a parameter specifying which sides
should have the border. You can use a logical OR of the following
values to specify the sides:
wxNORTH -- the top side
wxSOUTH -- the bottom side
wxEAST -- the right side
wxWEST -- the left side
wxALL -- all sides
The width in pixels of the border is specified when the child
widget is Added to the sizer.
"""
def __init__(self, sides = wxALL):
wxSizer.__init__(self)
self.sides = sides
def Add(self, widget, borderSize):
if self.children:
raise ValueError("wxBorderSizer can only contain one child.")
wxSizer.Add(self, widget, borderSize)
def CalcMin(self):
isSizer, widget, width, height, borderSize = self.children[0]
if isSizer:
width, height = widget.CalcMin()
if self.sides & wxEAST:
width = width + borderSize
if self.sides & wxWEST:
width = width + borderSize
if self.sides & wxNORTH:
height = height + borderSize
if self.sides & wxSOUTH:
height = height + borderSize
return width, height
def RecalcSizes(self):
isSizer, widget, width, height, borderSize = self.children[0]
width = self.size.width
height = self.size.height
px = self.origin.x
py = self.origin.y
if self.sides & wxWEST:
width = width - borderSize
px = px + borderSize
if self.sides & wxEAST:
width = width - borderSize
if self.sides & wxNORTH:
height = height - borderSize
py = py + borderSize
if self.sides & wxSOUTH:
height = height - borderSize
widget.SetDimensions(px, py, width, height)
#----------------------------------------------------------------------
#
# TODO... Make an abstract class wxBorder whose decendants can be added to
# a wxBorderSizer to provide drawing for the buffer area. Ideas are
# to provide a color border, beveled borders, rounded borders, etc.

137
utils/wxPython/lib/sizers/box.py Normal file
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#----------------------------------------------------------------------
# Name: wxPython.lib.sizers.box
# Purpose: A sizer/layout managers for wxPython that places items in
# a stretchable box
#
# Author: Robin Dunn and Dirk Holtwick
#
# Created: 17-May-1999
# RCS-ID: $Id$
# Copyright: (c) 1998 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------
from sizer import wxSizer
from wxPython.wx import wxVERTICAL, wxHORIZONTAL
#----------------------------------------------------------------------
class wxBoxSizer(wxSizer):
"""
wxBoxSizer
A Sizer that lays components out in a box, in the order they are
added to the layout manager, with a given orientation. The
orientation is specified in the constructor with either wxVERTICAL
or wxHORIZONTAL.
The optional parameter to the Add method (for this sizer it's
called the stretch flag) can be used to flag one or more components
as stretchable, meaning that they will expand to fill available
space in the given orientation. The default is zero, or not
stretchable.
If the stretch flag is non-zero then the widget will stretch. If
the sizer holds more than one item that is stretchable then they
share the available space.
If the strech flag is greater than 1 then it serves as a weighting
factor. Widgets with a flag of 2 will get twice as much space as
widgets with 1, etc.
"""
def __init__(self, orientation, size = None):
wxSizer.__init__(self, size)
self.orientation = orientation
def CalcMin(self):
self.stretchable = 0 # number of stretchable items
self.minWidth = 0 # minimal size
self.minHeight = 0
self.fixedWidth = 0 # size without stretched widgets
self.fixedHeight = 0
# iterate through children
for (isSizer, widget, width, height, stretch) in self.children:
weight = 1
if stretch:
weight = stretch
if isSizer:
# let sub-sizers recalc their required space
width, height = widget.CalcMin()
# minimal size
if self.orientation == wxVERTICAL:
self.minHeight = self.minHeight + (height * weight)
self.minWidth = max(self.minWidth, width)
else:
self.minWidth = self.minWidth + (width * weight)
self.minHeight = max(self.minHeight, height)
# stretchable items
if stretch:
self.stretchable = self.stretchable + weight
else:
if self.orientation == wxVERTICAL:
self.fixedHeight = self.fixedHeight + height
self.fixedWidth = max(self.fixedWidth, width)
else:
self.fixedWidth = self.fixedWidth + width
self.fixedHeight = max(self.fixedHeight, height)
return self.minWidth, self.minHeight
def RecalcSizes(self):
# get current dimensions, save for performance
myWidth = self.size.width
myHeight = self.size.height
# relative recent positions & sizes
px = self.origin.x
py = self.origin.y
newWidth = 0
newHeight = 0
# calculate space for one stretched item
if self.stretchable:
if self.orientation == wxHORIZONTAL:
delta = (myWidth - self.fixedWidth) / self.stretchable
extra = (myWidth - self.fixedWidth) % self.stretchable
else:
delta = (myHeight - self.fixedHeight) / self.stretchable
extra = (myHeight - self.fixedHeight) % self.stretchable
# iterate children ...
for (isSizer, widget, width, height, stretch) in self.children:
weight = 1
if stretch:
weight = stretch
if isSizer:
width, height = widget.CalcMin()
# ... vertical
if self.orientation == wxVERTICAL:
newHeight = height
if stretch:
newHeight = (delta * weight) + extra # first stretchable gets extra pixels
extra = 0
widget.SetDimensions(px, py, myWidth, newHeight)
# ... horizontal
elif self.orientation == wxHORIZONTAL:
newWidth = width
if stretch:
newWidth = (delta * weight) + extra # first stretchable gets extra pixels
extra = 0
widget.SetDimensions(px, py, newWidth, myHeight)
px = px + newWidth
py = py + newHeight
#----------------------------------------------------------------------

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