895 lines
26 KiB
C++
895 lines
26 KiB
C++
/*
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---------------------------------------------------------------------------
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Open Asset Import Library (ASSIMP)
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---------------------------------------------------------------------------
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Copyright (c) 2006-2008, ASSIMP Development Team
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All rights reserved.
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Redistribution and use of this software in source and binary forms,
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with or without modification, are permitted provided that the following
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conditions are met:
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* Redistributions of source code must retain the above
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copyright notice, this list of conditions and the
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following disclaimer.
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* Redistributions in binary form must reproduce the above
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copyright notice, this list of conditions and the
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following disclaimer in the documentation and/or other
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materials provided with the distribution.
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* Neither the name of the ASSIMP team, nor the names of its
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contributors may be used to endorse or promote products
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derived from this software without specific prior
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written permission of the ASSIMP Development Team.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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---------------------------------------------------------------------------
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*/
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/** @file CompareDump.cpp
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* @brief Implementation of the 'assimp cmpdmp', which compares
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* two model dumps for equality. It plays an important role
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* in the regression test suite.
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*/
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#include "Main.h"
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const char* AICMD_MSG_CMPDUMP_HELP =
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"assimp cmpdump <actual> <expected>\n"
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"\tCompare two short dumps produced with \'assimp dump <..> -s\' for equality.\n"
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;
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#include "../../code/assbin_chunks.h"
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////////////////////////////////////////////////////////////////////////////////////////////////////
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#include "generic_inserter.hpp"
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// get << for aiString
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template <typename char_t, typename traits_t>
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void mysprint(std::basic_ostream<char_t, traits_t>& os, const aiString& vec) {
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os << "[length: \'" << std::dec << vec.length << "\' content: \'" << vec.data << "\']";
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}
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template <typename char_t, typename traits_t>
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std::basic_ostream<char_t, traits_t>& operator<< (std::basic_ostream<char_t, traits_t>& os, const aiString& vec) {
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return generic_inserter(mysprint<char_t,traits_t>, os, vec);
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}
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class sliced_chunk_iterator;
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/// @class compare_fails_exception
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///
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/// @brief Sentinel exception to return quickly from deeply nested control paths
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////////////////////////////////////////////////////////////////////////////////////////////////////
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class compare_fails_exception : public virtual std::exception {
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public:
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enum {MAX_ERR_LEN = 4096};
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/* public c'tors */
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compare_fails_exception(const char* msg) {
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strncpy(mywhat,msg,MAX_ERR_LEN-1);
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strcat(mywhat,"\n");
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}
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/* public member functions */
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const char* what() const throw() {
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return mywhat;
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}
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private:
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char mywhat[MAX_ERR_LEN+1];
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};
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#define MY_FLT_EPSILON 1e-1f
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#define MY_DBL_EPSILON 1e-1
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/// @class comparer_context
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///
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/// @brief Record our way through the files to be compared and dump useful information if we fail.
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////////////////////////////////////////////////////////////////////////////////////////////////////
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class comparer_context {
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friend class sliced_chunk_iterator;
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public:
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/* construct given two file handles to compare */
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comparer_context(FILE* actual,FILE* expect)
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: actual(actual)
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, expect(expect)
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, cnt_chunks(0)
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{
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assert(actual);
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assert(expect);
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fseek(actual,0,SEEK_END);
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lengths.push(std::make_pair(static_cast<uint32_t>(ftell(actual)),0));
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fseek(actual,0,SEEK_SET);
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history.push_back(HistoryEntry("---",PerChunkCounter()));
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}
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public:
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/* set new scope */
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void push_elem(const char* msg) {
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const std::string s = msg;
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PerChunkCounter::const_iterator it = history.back().second.find(s);
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if(it != history.back().second.end()) {
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++history.back().second[s];
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}
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else history.back().second[s] = 1;
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history.push_back(HistoryEntry(s,PerChunkCounter()));
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}
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/* leave current scope */
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void pop_elem() {
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assert(history.size());
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history.pop_back();
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}
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/* push current chunk length and start offset on top of stack */
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void push_length(uint32_t nl, uint32_t start) {
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lengths.push(std::make_pair(nl,start));
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++cnt_chunks;
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}
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/* pop the chunk length stack */
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void pop_length() {
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assert(lengths.size());
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lengths.pop();
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}
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/* access the current chunk length */
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uint32_t get_latest_chunk_length() {
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assert(lengths.size());
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return lengths.top().first;
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}
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/* access the current chunk start offset */
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uint32_t get_latest_chunk_start() {
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assert(lengths.size());
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return lengths.top().second;
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}
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/* total number of chunk headers passed so far*/
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uint32_t get_num_chunks() {
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return cnt_chunks;
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}
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/* get ACTUAL file desc. != NULL */
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FILE* get_actual() const {
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return actual;
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}
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/* get EXPECT file desc. != NULL */
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FILE* get_expect() const {
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return expect;
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}
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/* compare next T from both streams, name occurs in error messages */
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template<typename T> T cmp(const std::string& name) {
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T a,e;
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read(a,e);
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if(a != e) {
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std::stringstream ss;
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failure((ss<< "Expected " << e << ", but actual is " << a,
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ss.str()),name);
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}
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// std::cout << name << " " << std::hex << a << std::endl;
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return a;
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}
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/* compare next num T's from both streams, name occurs in error messages */
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template<typename T> void cmp(size_t num,const std::string& name) {
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for(size_t n = 0; n < num; ++n) {
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std::stringstream ss;
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cmp<T>((ss<<name<<"["<<n<<"]",ss.str()));
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// std::cout << name << " " << std::hex << a << std::endl;
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}
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}
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/* Bounds of an aiVector3D array (separate function
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* because partial specializations of member functions are illegal--)*/
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template<typename T> void cmp_bounds(const std::string& name) {
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cmp<T> (name+".<minimum-value>");
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cmp<T> (name+".<maximum-value>");
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}
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private:
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/* Report failure */
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void failure(const std::string& err, const std::string& name) {
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std::stringstream ss;
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throw compare_fails_exception((ss
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<< "Files are different at "
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<< history.back().first
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<< "."
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<< name
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<< ".\nError is: "
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<< err
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<< ".\nCurrent position in scene hierarchy is "
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<< print_hierarchy(),ss.str().c_str()
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));
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}
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/** print our 'stack' */
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std::string print_hierarchy() {
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std::stringstream ss;
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ss << std::endl;
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const char* last = history.back().first.c_str();
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std::string pad;
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for(ChunkHistory::reverse_iterator rev = ++history.rbegin(),
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end = history.rend(); rev < end; ++rev, pad += " ")
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{
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ss << pad << (*rev).first << "(Index: " << (*rev).second[last]-1 << ")" << std::endl;
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last = (*rev).first.c_str();
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}
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return ss.str();
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}
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/* read from both streams simult.*/
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template <typename T> void read(T& filla,T& fille) {
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if(1 != fread(&filla,sizeof(T),1,actual)) {
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throw compare_fails_exception("Unexpected EOF reading ACTUAL");
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}
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if(1 != fread(&fille,sizeof(T),1,expect)) {
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throw compare_fails_exception("Unexpected EOF reading EXPECT");
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}
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}
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private:
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FILE *const actual, *const expect;
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typedef std::map<std::string,unsigned int> PerChunkCounter;
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typedef std::pair<std::string,PerChunkCounter> HistoryEntry;
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typedef std::deque<HistoryEntry> ChunkHistory;
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ChunkHistory history;
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typedef std::stack<std::pair<uint32_t,uint32_t> > LengthStack;
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LengthStack lengths;
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uint32_t cnt_chunks;
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};
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* specialization for aiString (it needs separate handling because its on-disk representation
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* differs from its binary representation in memory and can't be treated as an array of n T's.*/
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template <> void comparer_context :: read<aiString>(aiString& filla,aiString& fille) {
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uint32_t lena,lene;
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read(lena,lene);
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if(lena && 1 != fread(&filla.data,lena,1,actual)) {
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throw compare_fails_exception("Unexpected EOF reading ACTUAL");
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}
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if(lene && 1 != fread(&fille.data,lene,1,expect)) {
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throw compare_fails_exception("Unexpected EOF reading ACTUAL");
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}
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fille.data[fille.length=static_cast<unsigned int>(lene)] = '\0';
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filla.data[filla.length=static_cast<unsigned int>(lena)] = '\0';
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for float, uses epsilon for comparisons*/
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template<> float comparer_context :: cmp<float>(const std::string& name)
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{
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float a,e,t;
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read(a,e);
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if((t=fabs(a-e)) > MY_FLT_EPSILON) {
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std::stringstream ss;
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failure((ss<< "Expected " << e << ", but actual is "
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<< a << " (delta is " << t << ")", ss.str()),name);
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}
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return a;
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for double, uses epsilon for comparisons*/
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template<> double comparer_context :: cmp<double>(const std::string& name)
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{
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double a,e,t;
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read(a,e);
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if((t=fabs(a-e)) > MY_DBL_EPSILON) {
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std::stringstream ss;
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failure((ss<< "Expected " << e << ", but actual is "
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<< a << " (delta is " << t << ")", ss.str()),name);
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}
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return a;
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for aiVector3D */
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template<> aiVector3D comparer_context :: cmp<aiVector3D >(const std::string& name)
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{
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const float x = cmp<float>(name+".x");
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const float y = cmp<float>(name+".y");
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const float z = cmp<float>(name+".z");
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return aiVector3D(x,y,z);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for aiColor4D */
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template<> aiColor4D comparer_context :: cmp<aiColor4D >(const std::string& name)
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{
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const float r = cmp<float>(name+".r");
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const float g = cmp<float>(name+".g");
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const float b = cmp<float>(name+".b");
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const float a = cmp<float>(name+".a");
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return aiColor4D(r,g,b,a);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for aiQuaternion */
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template<> aiQuaternion comparer_context :: cmp<aiQuaternion >(const std::string& name)
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{
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const float w = cmp<float>(name+".w");
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const float x = cmp<float>(name+".x");
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const float y = cmp<float>(name+".y");
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const float z = cmp<float>(name+".z");
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return aiQuaternion(w,x,y,z);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for aiQuatKey */
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template<> aiQuatKey comparer_context :: cmp<aiQuatKey >(const std::string& name)
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{
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const double mTime = cmp<double>(name+".mTime");
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const aiQuaternion mValue = cmp<aiQuaternion>(name+".mValue");
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return aiQuatKey(mTime,mValue);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for aiVectorKey */
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template<> aiVectorKey comparer_context :: cmp<aiVectorKey >(const std::string& name)
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{
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const double mTime = cmp<double>(name+".mTime");
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const aiVector3D mValue = cmp<aiVector3D>(name+".mValue");
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return aiVectorKey(mTime,mValue);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for aiMatrix4x4 */
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template<> aiMatrix4x4 comparer_context :: cmp<aiMatrix4x4 >(const std::string& name)
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{
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aiMatrix4x4 res;
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for(unsigned int i = 0; i < 4; ++i) {
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for(unsigned int j = 0; j < 4; ++j) {
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std::stringstream ss;
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res[i][j] = cmp<float>(name+(ss<<".m"<<i<<j,ss.str()));
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}
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}
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return res;
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/* Specialization for aiVertexWeight */
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template<> aiVertexWeight comparer_context :: cmp<aiVertexWeight >(const std::string& name)
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{
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const unsigned int mVertexId = cmp<unsigned int>(name+".mVertexId");
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const float mWeight = cmp<float>(name+".mWeight");
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return aiVertexWeight(mVertexId,mWeight);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/// @class sliced_chunk_iterator
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///
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/// @brief Helper to iterate easily through corresponding chunks of two dumps simultaneously.
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///
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/// Not a *real* iterator, doesn't fully conform to the isocpp iterator spec
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////////////////////////////////////////////////////////////////////////////////////////////////////
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class sliced_chunk_iterator {
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friend class sliced_chunk_reader;
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sliced_chunk_iterator(comparer_context& ctx, long end)
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: ctx(ctx)
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, endit(false)
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, next(std::numeric_limits<long>::max())
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, end(end)
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{
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load_next();
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}
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public:
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~sliced_chunk_iterator() {
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fseek(ctx.get_actual(),end,SEEK_SET);
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fseek(ctx.get_expect(),end,SEEK_SET);
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}
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public:
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/* get current chunk head */
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typedef std::pair<uint32_t,uint32_t> Chunk;
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const Chunk& operator*() {
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return current;
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}
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/* get to next chunk head */
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const sliced_chunk_iterator& operator++() {
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cleanup();
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load_next();
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return *this;
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}
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/* */
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bool is_end() const {
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return endit;
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}
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private:
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/* get to the end of *this* chunk */
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void cleanup() {
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if(next != std::numeric_limits<long>::max()) {
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fseek(ctx.get_actual(),next,SEEK_SET);
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fseek(ctx.get_expect(),next,SEEK_SET);
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ctx.pop_length();
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}
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}
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/* advance to the next chunk */
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void load_next() {
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Chunk actual;
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size_t res=0;
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const long cur = ftell(ctx.get_expect());
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if(end-cur<8) {
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current = std::make_pair(0u,0u);
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endit = true;
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return;
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}
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res|=fread(¤t.first,4,1,ctx.get_expect());
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res|=fread(¤t.second,4,1,ctx.get_expect()) <<1u;
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res|=fread(&actual.first,4,1,ctx.get_actual()) <<2u;
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res|=fread(&actual.second,4,1,ctx.get_actual()) <<3u;
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if(res!=0xf) {
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ctx.failure("I/OError reading chunk head, dumps are not well-defined","<ChunkHead>");
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}
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if (current.first != actual.first) {
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std::stringstream ss;
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ctx.failure((ss
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<<"Chunk headers do not match. EXPECT: "
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<< std::hex << current.first
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<<" ACTUAL: "
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<< /*std::hex */actual.first,
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ss.str()),
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"<ChunkHead>");
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}
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if (current.first != actual.first) {
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std::stringstream ss;
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ctx.failure((ss
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<<"Chunk lenghts do not match. EXPECT: "
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<<current.second
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<<" ACTUAL: "
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<< actual.second,
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ss.str()),
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"<ChunkHead>");
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}
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next = cur+current.second+8;
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ctx.push_length(current.second,cur+8);
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}
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comparer_context& ctx;
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Chunk current;
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bool endit;
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long next,end;
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};
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|
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/// @class sliced_chunk_reader
|
|
///
|
|
/// @brief Helper to iterate easily through corresponding chunks of two dumps simultaneously.
|
|
////////////////////////////////////////////////////////////////////////////////////////////////////
|
|
class sliced_chunk_reader {
|
|
public:
|
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|
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//
|
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sliced_chunk_reader(comparer_context& ctx)
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: ctx(ctx)
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{}
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//
|
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~sliced_chunk_reader() {
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}
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public:
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|
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sliced_chunk_iterator begin() const {
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return sliced_chunk_iterator(ctx,ctx.get_latest_chunk_length()+
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ctx.get_latest_chunk_start());
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}
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private:
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|
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comparer_context& ctx;
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};
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|
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/// @class scoped_chunk
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///
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/// @brief Utility to simplify usage of comparer_context.push_elem/pop_elem
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////////////////////////////////////////////////////////////////////////////////////////////////////
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class scoped_chunk {
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public:
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//
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scoped_chunk(comparer_context& ctx,const char* msg)
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: ctx(ctx)
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{
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ctx.push_elem(msg);
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}
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//
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~scoped_chunk()
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{
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ctx.pop_elem();
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}
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private:
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comparer_context& ctx;
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};
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyMaterialProperty(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiMaterialProperty");
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comp.cmp<aiString>("mKey");
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comp.cmp<uint32_t>("mSemantic");
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comp.cmp<uint32_t>("mIndex");
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const uint32_t length = comp.cmp<uint32_t>("mDataLength");
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const aiPropertyTypeInfo type = static_cast<aiPropertyTypeInfo>(
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comp.cmp<uint32_t>("mType"));
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switch (type)
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{
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case aiPTI_Float:
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comp.cmp<float>(length/4,"mData");
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break;
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case aiPTI_String:
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comp.cmp<aiString>("mData");
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break;
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case aiPTI_Integer:
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comp.cmp<uint32_t>(length/4,"mData");
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break;
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case aiPTI_Buffer:
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comp.cmp<uint8_t>(length,"mData");
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break;
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};
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyMaterial(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiMaterial");
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comp.cmp<uint32_t>("aiMaterial::mNumProperties");
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sliced_chunk_reader reader(comp);
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for(sliced_chunk_iterator it = reader.begin(); !it.is_end(); ++it) {
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if ((*it).first == ASSBIN_CHUNK_AIMATERIALPROPERTY) {
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CompareOnTheFlyMaterialProperty(comp);
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}
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}
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyBone(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiBone");
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comp.cmp<aiString>("mName");
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comp.cmp<uint32_t>("mNumWeights");
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comp.cmp<aiMatrix4x4>("mOffsetMatrix");
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comp.cmp_bounds<aiVertexWeight>("mWeights");
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyNodeAnim(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiNodeAnim");
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comp.cmp<aiString>("mNodeName");
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comp.cmp<uint32_t>("mNumPositionKeys");
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comp.cmp<uint32_t>("mNumRotationKeys");
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comp.cmp<uint32_t>("mNumScalingKeys");
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comp.cmp<uint32_t>("mPreState");
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comp.cmp<uint32_t>("mPostState");
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comp.cmp_bounds<aiVector3D>("mPositionKeys");
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comp.cmp_bounds<aiVector3D>("mRotationKeys");
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comp.cmp_bounds<aiVector3D>("mScalingKeys");
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyMesh(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiMesh");
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comp.cmp<uint32_t>("mPrimitiveTypes");
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comp.cmp<uint32_t>("mNumVertices");
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const uint32_t nf = comp.cmp<uint32_t>("mNumFaces");
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comp.cmp<uint32_t>("mNumBones");
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comp.cmp<uint32_t>("mMaterialIndex");
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const uint32_t present = comp.cmp<uint32_t>("<vertex-components-present>");
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if(present & ASSBIN_MESH_HAS_POSITIONS) {
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comp.cmp_bounds<aiVector3D>("mVertices");
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}
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if(present & ASSBIN_MESH_HAS_NORMALS) {
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comp.cmp_bounds<aiVector3D>("mNormals");
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}
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if(present & ASSBIN_MESH_HAS_TANGENTS_AND_BITANGENTS) {
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comp.cmp_bounds<aiVector3D>("mTangents");
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comp.cmp_bounds<aiVector3D>("mBitangents");
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}
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for(unsigned int i = 0; present & ASSBIN_MESH_HAS_COLOR(i); ++i) {
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std::stringstream ss;
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comp.cmp_bounds<aiColor4D>((ss<<"mColors["<<i<<"]",ss.str()));
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}
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for(unsigned int i = 0; present & ASSBIN_MESH_HAS_TEXCOORD(i); ++i) {
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std::stringstream ss;
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comp.cmp<uint32_t>((ss<<"mNumUVComponents["<<i<<"]",ss.str()));
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comp.cmp_bounds<aiVector3D>((ss.clear(),ss<<"mTextureCoords["<<i<<"]",ss.str()));
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}
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for(unsigned int i = 0; i< ((nf+511)/512); ++i) {
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std::stringstream ss;
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comp.cmp<uint32_t>((ss<<"mFaces["<<i*512<<"-"<<std::min(static_cast<
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uint32_t>((i+1)*512),nf)<<"]",ss.str()));
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}
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sliced_chunk_reader reader(comp);
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for(sliced_chunk_iterator it = reader.begin(); !it.is_end(); ++it) {
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if ((*it).first == ASSBIN_CHUNK_AIBONE) {
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CompareOnTheFlyBone(comp);
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}
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}
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyCamera(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiCamera");
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comp.cmp<aiString>("mName");
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comp.cmp<aiVector3D>("mPosition");
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comp.cmp<aiVector3D>("mLookAt");
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comp.cmp<aiVector3D>("mUp");
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comp.cmp<float>("mHorizontalFOV");
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comp.cmp<float>("mClipPlaneNear");
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comp.cmp<float>("mClipPlaneFar");
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comp.cmp<float>("mAspect");
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyLight(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiLight");
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comp.cmp<aiString>("mName");
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const aiLightSourceType type = static_cast<aiLightSourceType>(
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comp.cmp<uint32_t>("mType"));
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if(type==aiLightSource_DIRECTIONAL) {
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comp.cmp<float>("mAttenuationConstant");
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comp.cmp<float>("mAttenuationLinear");
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comp.cmp<float>("mAttenuationQuadratic");
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}
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comp.cmp<aiVector3D>("mColorDiffuse");
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comp.cmp<aiVector3D>("mColorSpecular");
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comp.cmp<aiVector3D>("mColorAmbient");
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if(type==aiLightSource_SPOT) {
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comp.cmp<float>("mAngleInnerCone");
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comp.cmp<float>("mAngleOuterCone");
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}
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyAnimation(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiAnimation");
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comp.cmp<aiString>("mName");
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comp.cmp<double>("mDuration");
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comp.cmp<double>("mTicksPerSecond");
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comp.cmp<uint32_t>("mNumChannels");
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sliced_chunk_reader reader(comp);
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for(sliced_chunk_iterator it = reader.begin(); !it.is_end(); ++it) {
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if ((*it).first == ASSBIN_CHUNK_AINODEANIM) {
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CompareOnTheFlyNodeAnim(comp);
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}
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}
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyTexture(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiTexture");
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const uint32_t w = comp.cmp<uint32_t>("mWidth");
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const uint32_t h = comp.cmp<uint32_t>("mHeight");
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comp.cmp<char>("achFormatHint[0]");
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comp.cmp<char>("achFormatHint[1]");
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comp.cmp<char>("achFormatHint[2]");
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comp.cmp<char>("achFormatHint[3]");
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyNode(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiNode");
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comp.cmp<aiString>("mName");
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comp.cmp<aiMatrix4x4>("mTransformation");
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comp.cmp<uint32_t>("mNumChildren");
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comp.cmp<uint32_t>(comp.cmp<uint32_t>("mNumMeshes"),"mMeshes");
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sliced_chunk_reader reader(comp);
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for(sliced_chunk_iterator it = reader.begin(); !it.is_end(); ++it) {
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if ((*it).first == ASSBIN_CHUNK_AINODE) {
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CompareOnTheFlyNode(comp);
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}
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}
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFlyScene(comparer_context& comp) {
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scoped_chunk chunk(comp,"aiScene");
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comp.cmp<uint32_t>("mFlags");
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comp.cmp<uint32_t>("mNumMeshes");
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comp.cmp<uint32_t>("mNumMaterials");
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comp.cmp<uint32_t>("mNumAnimations");
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comp.cmp<uint32_t>("mNumTextures");
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comp.cmp<uint32_t>("mNumLights");
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comp.cmp<uint32_t>("mNumCameras");
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sliced_chunk_reader reader(comp);
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for(sliced_chunk_iterator it = reader.begin(); !it.is_end(); ++it) {
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if ((*it).first == ASSBIN_CHUNK_AIMATERIAL) {
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CompareOnTheFlyMaterial(comp);
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}
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else if ((*it).first == ASSBIN_CHUNK_AITEXTURE) {
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CompareOnTheFlyTexture(comp);
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}
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else if ((*it).first == ASSBIN_CHUNK_AIMESH) {
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CompareOnTheFlyMesh(comp);
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}
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else if ((*it).first == ASSBIN_CHUNK_AIANIMATION) {
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CompareOnTheFlyAnimation(comp);
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}
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else if ((*it).first == ASSBIN_CHUNK_AICAMERA) {
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CompareOnTheFlyCamera(comp);
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}
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else if ((*it).first == ASSBIN_CHUNK_AILIGHT) {
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CompareOnTheFlyLight(comp);
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}
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else if ((*it).first == ASSBIN_CHUNK_AINODE) {
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CompareOnTheFlyNode(comp);
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}
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}
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CompareOnTheFly(comparer_context& comp)
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{
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sliced_chunk_reader reader(comp);
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for(sliced_chunk_iterator it = reader.begin(); !it.is_end(); ++it) {
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if ((*it).first == ASSBIN_CHUNK_AISCENE) {
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CompareOnTheFlyScene(comp);
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break;
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}
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}
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void CheckHeader(comparer_context& comp)
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{
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fseek(comp.get_actual(),ASSBIN_HEADER_LENGTH,SEEK_CUR);
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fseek(comp.get_expect(),ASSBIN_HEADER_LENGTH,SEEK_CUR);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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int Assimp_CompareDump (const char* const* params, unsigned int num)
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{
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// --help
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if (num == 1 && !strcmp( params[0], "-h") || !strcmp( params[0], "--help") || !strcmp( params[0], "-?") ) {
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printf("%s",AICMD_MSG_CMPDUMP_HELP);
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return 0;
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}
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// assimp cmpdump actual expected
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if (num < 1) {
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std::cout << "assimp cmpdump: Invalid number of arguments. "
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"See \'assimp cmpdump --help\'\r\n" << std::endl;
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return 1;
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}
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if(!strcmp(params[0],params[1])) {
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std::cout << "assimp cmpdump: same file, same content." << std::endl;
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return 0;
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}
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FILE* actual = fopen(params[0],"rb"), *expected = fopen(params[1],"rb");
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if (!actual) {
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std::cout << "assimp cmpdump: Failure reading ACTUAL data from " <<
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params[0] << std::endl;
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return -5;
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}
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if (!expected) {
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std::cout << "assimp cmpdump: Failure reading EXPECT data from " <<
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params[1] << std::endl;
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return -6;
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}
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comparer_context comp(actual,expected);
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try {
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CheckHeader(comp);
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CompareOnTheFly(comp);
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}
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catch(const compare_fails_exception& ex) {
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printf("%s",ex.what());
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return -1;
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}
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catch(...) {
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// we don't bother checking too rigourously here, so
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// we might end up here ...
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std::cout << "Unknown failure, are the input files well-defined?";
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return -3;
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}
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std::cout << "Success (totally " << std::dec << comp.get_num_chunks() <<
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" chunks)" << std::endl;
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return 0;
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}
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