jdflyer's work

Co-Authored-By: jdflyer <jdflyer10@gmail.com>
2022-02-07 17:47:45 -08:00 · 2022-02-07 17:47:45 -08:00 · 2e1be6224f
parent 92a4cd174e
commit 2e1be6224f
8 changed files with 125 additions and 232 deletions
--- a/include/JSystem/JKernel/JKRArchive.h
+++ b/include/JSystem/JKernel/JKRArchive.h
@ -222,4 +222,8 @@ inline void* JKRGetTypeResource(u32 tag, const char* name, JKRArchive* arc) {
    return JKRArchive::getGlbResource(tag, name, arc);
 }
 inline void* JKRGetResource(u32 tag, const char* name, JKRArchive* arc) {
    return JKRArchive::getGlbResource(tag, name, arc);
 }
 #endif
--- a/include/JSystem/JKernel/JKRDvdRipper.h
+++ b/include/JSystem/JKernel/JKRDvdRipper.h
@ -43,4 +43,12 @@ inline void* JKRDvdToMainRam(s32 entryNum, u8* dst, JKRExpandSwitch expandSwitch
                                       offset, compression, returnSize);
 }
 inline void* JKRDvdToMainRam(char const* param_0, u8* dst, JKRExpandSwitch expandSwitch,
                             u32 dstLength, JKRHeap* heap,
                             JKRDvdRipper::EAllocDirection allocDirection, u32 offset,
                             JKRCompression* compression, u32* returnSize) {
    return JKRDvdRipper::loadToMainRAM(param_0, dst, expandSwitch, dstLength, heap, allocDirection,
                                       offset, compression, returnSize);
 }
 #endif /* JKRDVDRIPPER_H */
--- a/include/JSystem/JKernel/JKRHeap.h
+++ b/include/JSystem/JKernel/JKRHeap.h
@ -225,4 +225,12 @@ inline u32 JKRGetMemBlockSize(JKRHeap* heap, void* block) {
    return JKRHeap::getSize(block, heap);
 }
 inline void* JKRAlloc(u32 size, int alignment) {
    return JKRHeap::alloc(size, alignment, NULL);
 }
 inline s32 JKRResizeMemBlock(JKRHeap* heap, void* ptr, u32 size) {
    return JKRHeap::resize(ptr, size, heap);
 }
 #endif /* JKRHEAP_H */
--- a/include/d/com/d_com_inf_game.h
+++ b/include/d/com/d_com_inf_game.h
@ -578,7 +578,7 @@ void dComIfGs_setWarpMarkFlag(u8);
 void dComIfGs_setSelectEquipSword(u8);
 void dComIfGs_setSelectEquipShield(u8);
 void* dComIfG_getStageRes(char const*);
-void dComLbG_PhaseHandler(request_of_phase_process_class*, request_of_phase_process_fn, void*);
+int dComLbG_PhaseHandler(request_of_phase_process_class*, request_of_phase_process_fn, void*);
 void dComIfGp_addSelectItemNum(int, s16);
 BOOL dComIfGs_isOneZoneSwitch(int, int);
 u8 dComIfGp_getSelectItem(int);
--- a/src/DynamicLink.cpp
+++ b/src/DynamicLink.cpp
@ -186,80 +186,40 @@ bool DynamicModuleControlBase::force_unlink() {
    return true;
 }
-#ifdef NONMATCHING
+/* 80262470-80262660 25CDB0 01F0+00 2/0 2/2 0/0 .text            dump__24DynamicModuleControlBaseFv
 */
 void DynamicModuleControlBase::dump() {
    u16 doLinkCount;
    u16 linkCount;
    DynamicModuleControlBase* current = getFirstClass();
-    int totalSize = 0;
+    size_t totalSize = 0;
    JUTReportConsole_f("\nDynamicModuleControlBase::dump()\n");
    JUTReportConsole_f("Do  Lnk Size      Name\n");
    // lbl_80262608
    while (current != NULL) {
-        // lbl_802624B8
+        doLinkCount = current->mDoLinkCount;
-        u16 doLinkCount = current->mDoLinkCount;
+        linkCount = current->mLinkCount;
        u16 linkCount = current->mLinkCount;
        if (doLinkCount != 0 || linkCount != 0) {
            // lbl_802624D0
            u32 size = current->getModuleSize();
            const char* name = current->getModuleName();
            if (size < 0xFFFFFFFF) {
                name = (name != NULL) ? name : "(Null)";
                // lbl_80262524
                const char* type = current->getModuleTypeString();
                JUTReportConsole_f("%3d%3d%5.1f %05x %-4s %-24s ", doLinkCount, linkCount,
-                                   size * (1.0f / 1024.0f), size, type, name);
+                                   size / 1024.0f, size, type, name);
                totalSize = totalSize + size;
            } else {
                // lbl_80262588
                name = (name != NULL) ? name : "(Null)";
                // lbl_802625A4
                const char* type = current->getModuleTypeString();
                JUTReportConsole_f("%3d%3d ???? ????? %-4s %-24s ", doLinkCount, linkCount, type,
                                   name);
            }
            // lbl_802625DC
            current->dump2();
            JUTReportConsole_f("\n");
        }
-        // lbl_80262604
+        current = current->getNextClass();
        current = getNextClass();
    }
-    // lbl_80262608
+    JUTReportConsole_f("TotalSize %6.2f %06x\n\n", totalSize / 1024.0f, totalSize);
    JUTReportConsole_f("TotalSize %6.2f %06x\n\n", (1.0f / 1024.0f) * totalSize, totalSize);
 }
 #else
 /* ############################################################################################## */
 /* 80455008-80455010 003608 0004+04 1/1 0/0 0/0 .sdata2          @3772 */
 SECTION_SDATA2 static f32 lit_3772[1 + 1 /* padding */] = {
    0.0009765625f,  // 1/1024
    /* padding */
    0.0f,
 };
 #pragma push
 #pragma force_active on
 SECTION_DEAD static char const* const stringBase_8039A4E5 = "\nDynamicModuleControlBase::dump()\n";
 SECTION_DEAD static char const* const stringBase_8039A508 = "Do  Lnk Size      Name\n";
 SECTION_DEAD static char const* const stringBase_8039A520 = "(Null)";
 SECTION_DEAD static char const* const stringBase_8039A527 = "%3d%3d%5.1f %05x %-4s %-24s ";
 SECTION_DEAD static char const* const stringBase_8039A544 = "%3d%3d ???? ????? %-4s %-24s ";
 SECTION_DEAD static char const* const stringBase_8039A562 = "\n";
 SECTION_DEAD static char const* const stringBase_8039A564 = "TotalSize %6.2f %06x\n\n";
 #pragma pop
 /* 80455010-80455018 003610 0008+00 1/1 0/0 0/0 .sdata2          @3774 */
 SECTION_SDATA2 static f64 lit_3774 = 4503599627370496.0 /* cast u32 to float */;
 /* 80262470-80262660 25CDB0 01F0+00 2/0 2/2 0/0 .text            dump__24DynamicModuleControlBaseFv
 */
 #pragma push
 #pragma optimization_level 0
 #pragma optimizewithasm off
 asm void DynamicModuleControlBase::dump() {
    nofralloc
 #include "asm/DynamicLink/dump__24DynamicModuleControlBaseFv.s"
 }
 #pragma pop
 #endif
 /* 80262660-802626D0 25CFA0 0070+00 0/0 2/2 0/0 .text            __ct__20DynamicModuleControlFPCc */
 DynamicModuleControl::DynamicModuleControl(char const* name) {
@ -332,7 +292,8 @@ static u32 calcSum2(u16 const* data, u32 size) {
    return sum;
 }
-#ifdef NONMATCHING
+/* 802627E8-80262AFC 25D128 0314+00 1/0 0/0 0/0 .text            do_load__20DynamicModuleControlFv
 */
 bool DynamicModuleControl::do_load() {
    if (mModule != NULL) {
        return true;
@ -341,26 +302,26 @@ bool DynamicModuleControl::do_load() {
    s32 i = 0;
    while (true) {
        if (mModule != NULL) {
-            JKRHeap::free(mModule, NULL);
+            JKRFree(mModule);
            mModule = NULL;
        }
        char buffer[64];
        snprintf(buffer, 64, "%s.rel", mName);
        if (mModule == NULL && sArchive != NULL) {
            if (mModule == NULL) {
-                mModule = (OSModuleInfo*)JKRArchive::getGlbResource('MMEM', buffer, sArchive);
+                mModule = (OSModuleInfo*)JKRGetResource('MMEM', buffer, sArchive);
                if (mModule != NULL) {
                    mResourceType = 1;
                }
            }
            if (mModule == NULL) {
-                mModule = (OSModuleInfo*)JKRArchive::getGlbResource('AMEM', buffer, sArchive);
+                mModule = (OSModuleInfo*)JKRGetResource('AMEM', buffer, sArchive);
                if (mModule != NULL) {
                    mResourceType = 2;
                }
            }
            if (mModule == NULL) {
-                mModule = (OSModuleInfo*)JKRArchive::getGlbResource('DMEM', buffer, sArchive);
+                mModule = (OSModuleInfo*)JKRGetResource('DMEM', buffer, sArchive);
                if (mModule != NULL) {
                    mResourceType = 3;
                }
@ -368,23 +329,25 @@ bool DynamicModuleControl::do_load() {
        }
        if (mModule != NULL) {
            mSize = sArchive->getExpandedResSize(mModule);
-            JKRFileLoader::detachResource(mModule, NULL);
+            JKRDetachResource(mModule, NULL);
-        } else if (mModule == NULL) {
+        } else {
-            snprintf(buffer, 64, "/rel/Final/Release/%s.rel", mName);
+            if (mModule == NULL) {
-            mModule = (OSModuleInfo*)JKRDvdRipper::loadToMainRAM(
+                snprintf(buffer, 64, "/rel/Final/Release/%s.rel", mName);
-                buffer, NULL, EXPAND_SWITCH_UNKNOWN1, 0, heap,
+                mModule = (OSModuleInfo*)JKRDvdToMainRam(
-                JKRDvdRipper::ALLOC_DIRECTION_FORWARD, 0, NULL, NULL);
+                    buffer, NULL, EXPAND_SWITCH_UNKNOWN1, NULL, heap,
-            if (mModule != NULL) {
+                    JKRDvdRipper::ALLOC_DIRECTION_FORWARD, 0, NULL, NULL);
-                mSize = 0;
+                if (mModule != NULL) {
-                mResourceType = 7;
+                    mSize = 0;
                    mResourceType = 7;
                }
            }
-        }
+            if (mModule == NULL && sFileCache != NULL) {
-        if (mModule == NULL && sFileCache != NULL) {
+                mModule = (OSModuleInfo*)sFileCache->getResource('rels', buffer);
-            mModule = (OSModuleInfo*)sFileCache->getResource('rels', buffer);
+                if (mModule != NULL) {
-            if (mModule != NULL) {
+                    mSize = 0;
-                mSize = 0;
+                    mResourceType = 11;
-                mResourceType = 11;
+                    JKRDetachResource(mModule, NULL);
-                JKRFileLoader::detachResource(mModule, NULL);
+                }
            }
        }
        if (mModule == NULL) {
@ -413,49 +376,22 @@ bool DynamicModuleControl::do_load() {
                    if (i >= 3) {
                        return false;
                    }
                } else {
                    if (unk_33 < 0xFF) {
                        unk_33++;
                    }
                    break;
                }
            }
        } else {
            if (unk_33 < 0xFF) {
                unk_33++;
                return true;
            }
-        }
+            break;
        if (unk_33 < 0xFF) {
            unk_33++;
            return true;
        }
    }
    return true;
 }
 #else
 /* ############################################################################################## */
 /* 8039A4A0-8039A4A0 026B00 0000+00 0/0 0/0 0/0 .rodata          @stringBase0 */
 #pragma push
 #pragma force_active on
 SECTION_DEAD static char const* const stringBase_8039A5E1 = "%s.rel";
 SECTION_DEAD static char const* const stringBase_8039A5E8 = "/rel/Final/Release/%s.rel";
 // MWCC ignores mapping of some japanese characters using the
 // byte 0x5C (ASCII '\'). This is why this string is hex-encoded.
 SECTION_DEAD static char const* const stringBase_8039A602 =
    "\x44\x79\x6E\x61\x6D\x69\x63\x4D\x6F\x64\x75\x6C\x65\x43\x6F\x6E\x74\x72\x6F\x6C\x3A\x3A\x64"
    "\x6F\x5F\x6C\x6F\x61\x64\x28\x29\x20\x83\x8A\x83\x5C\x81\x5B\x83\x58\x93\xC7\x82\xDD\x8D\x9E"
    "\x82\xDD"
    "\x8E\xB8\x94\x73\x20\x5B\x25\x73\x5D\x0A";
 SECTION_DEAD static char const* const stringBase_8039A63D =
    "DynamicModuleControl::do_load() チェックサムエラー %04x %"
    "04x[%s]\n";
 #pragma pop
 /* 802627E8-80262AFC 25D128 0314+00 1/0 0/0 0/0 .text            do_load__20DynamicModuleControlFv
 */
 #pragma push
 #pragma optimization_level 0
 #pragma optimizewithasm off
 asm bool DynamicModuleControl::do_load() {
    nofralloc
 #include "asm/DynamicLink/do_load__20DynamicModuleControlFv.s"
 }
 #pragma pop
 #endif
 /* 80262AFC-80262BC4 25D43C 00C8+00 1/0 0/0 0/0 .text do_load_async__20DynamicModuleControlFv */
 BOOL DynamicModuleControl::do_load_async() {
@ -500,96 +436,92 @@ void DynamicModuleControl::dump2() {
    }
 }
-#ifdef NONMATCHING
+/* 80262C5C-80262F28 25D59C 02CC+00 1/0 0/0 0/0 .text            do_link__20DynamicModuleControlFv
 */
 BOOL DynamicModuleControl::do_link() {
    OSGetTime();
    if (mModule == NULL) {
        do_load();
    }
    if (mModule != NULL) {
        ASSERT(mModule->info.sectionInfoOffset < 0x80000000);
        ASSERT((u32)mModule + mModule->fixSize < 0x82000000);
        OSGetTime();
        OSGetTime();
        if (mModule->mModuleVersion >= 3) {
-            u32 unk = mModule->fixSize;
+            u32 fixSizePtr;
-            u32 unk3 = (unk + 0x1f) & ~0x1f;
+            u32 fixSize = mModule->fixSize;
-            u32 unk2 = (u32)mModule + unk3;
+            u32 fixSize2 = (fixSize + 0x1f) & ~0x1f;
-            s32 size = JKRHeap::getSize(mModule, NULL);
+            fixSizePtr = (u32)mModule + fixSize2;
            s32 size = JKRGetMemBlockSize(NULL, mModule);
            if (size < 0) {
-                void* bss = JKRHeap::alloc(mModule->mBssSize, 0x20, NULL);
+                void* bss = JKRAlloc(mModule->mBssSize, 0x20);
                if (bss == NULL) {
                    // "BSS Memory allocation failed\n"
-                    OSReport_Error("BSSメモリ確保失敗\n");
+                    OSReport_Error("BSSメモリ確保失敗\n", bss);
-                    goto end;
+                    goto error;
-                } else {
+                }
-                    mBss = bss;
+                mBss = bss;
-                    BOOL linkResult = OSLink(mModule);
+                BOOL linkResult = OSLink(mModule);
-                    if (linkResult == FALSE) {
+                if (linkResult == FALSE) {
-                        // "link failed\n"
+                    // "link failed\n"
-                        OSReport_Error("リンク失敗\n");
+                    OSReport_Error("リンク失敗\n");
-                        goto end;
+                    goto error;
                    }
                }
            } else {
-                if (mModule->mBssSize + unk < size) {
+                if (fixSize2 + mModule->mBssSize < size) {
-                    BOOL linkResult = OSLinkFixed(mModule, unk2);
+                    BOOL linkResult = OSLinkFixed(mModule, fixSizePtr);
                    if (linkResult == FALSE) {
                        // "link failed\n"
                        OSReport_Error("リンク失敗\n");
-                        goto end;
+                        goto error;
                    }
                    s32 result = JKRResizeMemBlock(NULL, mModule, fixSize2 + mModule->mBssSize);
                    if (result < 0) {
                        // "Module size (resize) failed\n"
                        OSReport_Error("モジュールリサイズ(縮小)失敗\n");
                    }
                } else {
                    s32 result = JKRResizeMemBlock(NULL, mModule, fixSize2 + mModule->mBssSize);
                    if (result > 0) {
                        BOOL linkResult = OSLinkFixed(mModule, fixSizePtr);
                        if (linkResult == FALSE) {
                            // "link failed\n"
                            OSReport_Error("リンク失敗\n");
                            goto error;
                        }
                    } else {
-                        s32 result = JKRHeap::resize(mModule, mModule->mBssSize + unk, NULL);
+                        void* bss = JKRAlloc(mModule->mBssSize, 0x20);
                        if (bss == NULL) {
                            // "BSS Memory allocation failure [%x]\n"
                            OSReport_Error("BSSメモリ確保失敗 [%x]\n", mModule->mBssSize);
                            goto error;
                        }
                        mBss = bss;
                        BOOL linkResult = OSLinkFixed(mModule, (u32)bss);
                        if (linkResult == FALSE) {
                            // "link failed\n"
                            OSReport_Error("リンク失敗\n");
                            goto error;
                        }
                        s32 result = JKRResizeMemBlock(NULL, mModule, fixSize);
                        if (result < 0) {
                            // "Module size (resize) failed\n"
                            OSReport_Error("モジュールリサイズ(縮小)失敗\n");
                        }
                    }
                } else {  // lbl_80262DB0
                    s32 result = JKRHeap::resize(mModule, mModule->mBssSize + unk, NULL);
                    if (result > 0) {
                        BOOL linkResult = OSLinkFixed(mModule, unk2);
                        if (linkResult == FALSE) {
                            // "link failed\n"
                            OSReport_Error("リンク失敗\n");
                            goto end;
                        }
                    } else {  // lbl_80262DF0
                        void* bss = JKRHeap::alloc(mModule->mBssSize, 0x20, NULL);
                        if (bss == NULL) {
                            // "BSS Memory allocation failure [%x]\n"
                            OSReport_Error("BSSメモリ確保失敗 [%x]\n", mModule->mBssSize);
                            goto end;
                        } else {  // lbl_80262E2C
                            mBss = bss;
                            BOOL linkResult = OSLinkFixed(mModule, (u32)bss);
                            if (linkResult == FALSE) {
                                // "link failed\n"
                                OSReport_Error("リンク失敗\n");
                                goto end;
                            }
                            // lbl_80262E58
                            s32 result = JKRHeap::resize(mModule, unk3, NULL);
                            if (result < 0) {
                                // "Module size (resize) failed\n"
                                OSReport_Error("モジュールリサイズ(縮小)失敗\n");
                            }
                        }
                    }
                }
            }
        }
        // lbl_80262E84
        OSGetTime();
        sAllocBytes = sAllocBytes + getModuleSize();
        OSGetTime();
-        unk_24 = mModule->prolog();
+        unk_24 = ((u32(*)())mModule->prolog)();
        OSGetTime();
        return TRUE;
    }
-end:  // lbl_80262ECC
+error:
    unk_33 = 0;
    if (mBss != NULL) {
        JKRHeap::free(mBss, NULL);
@ -601,26 +533,6 @@ end:  // lbl_80262ECC
    }
    return FALSE;
 }
 #else
 #pragma push
 #pragma force_active on
 SECTION_DEAD static char const* const stringBase_8039A6E2 = "BSSメモリ確保失敗\n";
 SECTION_DEAD static char const* const stringBase_8039A6F5 = "リンク失敗\n";
 SECTION_DEAD static char const* const stringBase_8039A701 = "モジュールリサイズ(縮小)失敗\n";
 SECTION_DEAD static char const* const stringBase_8039A71F = "BSSメモリ確保失敗 [%x]\n";
 #pragma pop
 /* 80262C5C-80262F28 25D59C 02CC+00 1/0 0/0 0/0 .text            do_link__20DynamicModuleControlFv
 */
 #pragma push
 #pragma optimization_level 0
 #pragma optimizewithasm off
 asm BOOL DynamicModuleControl::do_link() {
    nofralloc
 #include "asm/DynamicLink/do_link__20DynamicModuleControlFv.s"
 }
 #pragma pop
 #endif
 /* 80262F28-80263000 25D868 00D8+00 1/0 0/0 0/0 .text            do_unlink__20DynamicModuleControlFv
 */
--- a/src/c/c_dylink.cpp
+++ b/src/c/c_dylink.cpp
@ -961,61 +961,32 @@ int cDylPhs::phase_01(void* param_0) {
 }
 /* 8001880C-80018844 01314C 0038+00 1/0 0/0 0/0 .text            phase_02__7cDylPhsFPs */
 // instructions switched
 #ifdef NONMATCHING
 int cDylPhs::phase_02(s16* p_profName) {
-    s32 temp_r3 = cDyl_LinkASync(*p_profName);
+    int ret = cDyl_LinkASync(*p_profName);
    s32 phi_r0 = 2;
-    if (temp_r3 != 4) {
+    if (ret != 4) {
-        phi_r0 = temp_r3;
+        return ret;
    }
-    return phi_r0;
+    return 2;
 }
 #else
 #pragma push
 #pragma optimization_level 0
 #pragma optimizewithasm off
 asm int cDylPhs::phase_02(s16* param_0) {
    nofralloc
 #include "asm/c/c_dylink/phase_02__7cDylPhsFPs.s"
 }
 #pragma pop
 #endif
 /* 80018844-8001884C 013184 0008+00 1/0 0/0 0/0 .text            phase_03__7cDylPhsFPv */
 int cDylPhs::phase_03(void* param_0) {
    return 0;
 }
 /* ############################################################################################## */
 /* 803A3590-803A35A0 -00001 000C+04 1/1 0/0 0/0 .data            l_method$3807 */
 SECTION_DATA static request_of_phase_process_fn l_method[3] = {
    (request_of_phase_process_fn)cDylPhs::phase_01,
    (request_of_phase_process_fn)cDylPhs::phase_02,
    (request_of_phase_process_fn)cDylPhs::phase_03,
 };
 /* 8001884C-80018890 01318C 0044+00 0/0 2/2 0/0 .text
 * Link__7cDylPhsFP30request_of_phase_process_classs            */
 #ifdef NONMATCHING
 int cDylPhs::Link(request_of_phase_process_class* i_phase, s16 param_1) {
    static int (*l_method[3])(void*) = {cDylPhs::phase_01, (int (*)(void*))cDylPhs::phase_02,
                                        cDylPhs::phase_03};
    if (i_phase->mPhaseStep == 2) {
        return 4;
    }
-    dComLbG_PhaseHandler(i_phase, l_method[0], &param_1);
+    return dComLbG_PhaseHandler(i_phase, l_method, &param_1);
 }
 #else
 #pragma push
 #pragma optimization_level 0
 #pragma optimizewithasm off
 asm int cDylPhs::Link(request_of_phase_process_class* param_0, s16 param_1) {
    nofralloc
 #include "asm/c/c_dylink/Link__7cDylPhsFP30request_of_phase_process_classs.s"
 }
 #pragma pop
 #endif
 /* 80018890-800188DC 0131D0 004C+00 0/0 1/1 0/0 .text
 * Unlink__7cDylPhsFP30request_of_phase_process_classs          */
--- a/src/d/com/d_com_inf_game.cpp
+++ b/src/d/com/d_com_inf_game.cpp
@ -2526,8 +2526,8 @@ BOOL dComIfGp_TransportWarp_check() {
 #pragma push
 #pragma optimization_level 0
 #pragma optimizewithasm off
-asm void dComLbG_PhaseHandler(request_of_phase_process_class* param_0, int (**param_1)(void*),
+asm int dComLbG_PhaseHandler(request_of_phase_process_class* param_0, int (**param_1)(void*),
-                              void* param_2) {
+                             void* param_2) {
    nofralloc
 #include "asm/d/com/d_com_inf_game/dComLbG_PhaseHandler__FP30request_of_phase_process_classPPFPv_iPv.s"
 }
--- a/tools/package_game_assets.py
+++ b/tools/package_game_assets.py
@ -9,12 +9,6 @@ import ctypes
 import oead
 def sha1_from_data(data):
    sha1 = hashlib.sha1()
    sha1.update(data)
    return sha1.hexdigest().upper()
 def copy(path,destPath):
    for root,dirs,files in os.walk(str(path)):
        for file in files:
@ -28,11 +22,7 @@ def copy(path,destPath):
                print(str(inFile)+" -> "+str(outputFile))
                shutil.copyfile(inFile,outputFile)
            else:
-                inf = open(inFile,"rb")
+                if os.path.getmtime(inFile)>os.path.getmtime(outputFile):
                inSum = sha1_from_data(bytearray(inf.read()))
                outf = open(outputFile,"rb")
                outSum = sha1_from_data(bytearray(outf.read()))
                if inSum!=outSum:
                    print(str(inFile)+" -> "+str(outputFile))
                    shutil.copyfile(inFile,outputFile)