Searched refs:fFuncMasks (Results 1 – 2 of 2) sorted by relevance
282 settings[0].fFuncMasks[kFront_Face] &= ~stencilClipMask; in GetClipPasses()284 settings[0].fFuncMasks[kBack_Face] = in GetClipPasses()285 settings[0].fFuncMasks[kFront_Face]; in GetClipPasses()300 settings[0].fFuncMasks[kFront_Face] &= ~stencilClipMask; in GetClipPasses()301 settings[0].fFuncMasks[kBack_Face] = in GetClipPasses()302 settings[0].fFuncMasks[kFront_Face]; in GetClipPasses()317 settings[0].fFuncMasks[kFront_Face] &= ~stencilClipMask; in GetClipPasses()319 settings[0].fFuncMasks[kBack_Face] = in GetClipPasses()320 settings[0].fFuncMasks[kFront_Face]; in GetClipPasses()334 settings[0].fFuncMasks[kFront_Face] &= ~stencilClipMask; in GetClipPasses()[all …]
111 uint16_t fFuncMasks[2]; // mask for face tests member185 uint16_t funcMask(Face f) const { return fFuncMasks[f]; } in funcMask()192 void setFuncMask(Face f, unsigned short mask) { fFuncMasks[f] = mask; } in setFuncMask()200 fFuncMasks[kBack_Face] = fFuncMasks[kFront_Face]; in copyFrontSettingsToBack()215 fFuncMasks[kFront_Face] = fFuncMasks[kBack_Face] = funcMask; in setSame()232 fFuncMasks[kFront_Face] != fFuncMasks[kBack_Face] || in isTwoSided()