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Unified Diff: icu51/source/common/utext.cpp

Issue 20882002: Check in the pristine copy of ICU 51.2 (Closed) Base URL: svn://chrome-svn/chrome/trunk/deps/third_party/
Patch Set: Created 7 years, 5 months ago
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Index: icu51/source/common/utext.cpp
===================================================================
--- icu51/source/common/utext.cpp (revision 0)
+++ icu51/source/common/utext.cpp (revision 0)
@@ -0,0 +1,2837 @@
+/*
+*******************************************************************************
+*
+* Copyright (C) 2005-2012, International Business Machines
+* Corporation and others. All Rights Reserved.
+*
+*******************************************************************************
+* file name: utext.cpp
+* encoding: US-ASCII
+* tab size: 8 (not used)
+* indentation:4
+*
+* created on: 2005apr12
+* created by: Markus W. Scherer
+*/
+
+#include "unicode/utypes.h"
+#include "unicode/ustring.h"
+#include "unicode/unistr.h"
+#include "unicode/chariter.h"
+#include "unicode/utext.h"
+#include "unicode/utf.h"
+#include "unicode/utf8.h"
+#include "unicode/utf16.h"
+#include "ustr_imp.h"
+#include "cmemory.h"
+#include "cstring.h"
+#include "uassert.h"
+#include "putilimp.h"
+
+U_NAMESPACE_USE
+
+#define I32_FLAG(bitIndex) ((int32_t)1<<(bitIndex))
+
+
+static UBool
+utext_access(UText *ut, int64_t index, UBool forward) {
+ return ut->pFuncs->access(ut, index, forward);
+}
+
+
+
+U_CAPI UBool U_EXPORT2
+utext_moveIndex32(UText *ut, int32_t delta) {
+ UChar32 c;
+ if (delta > 0) {
+ do {
+ if(ut->chunkOffset>=ut->chunkLength && !utext_access(ut, ut->chunkNativeLimit, TRUE)) {
+ return FALSE;
+ }
+ c = ut->chunkContents[ut->chunkOffset];
+ if (U16_IS_SURROGATE(c)) {
+ c = utext_next32(ut);
+ if (c == U_SENTINEL) {
+ return FALSE;
+ }
+ } else {
+ ut->chunkOffset++;
+ }
+ } while(--delta>0);
+
+ } else if (delta<0) {
+ do {
+ if(ut->chunkOffset<=0 && !utext_access(ut, ut->chunkNativeStart, FALSE)) {
+ return FALSE;
+ }
+ c = ut->chunkContents[ut->chunkOffset-1];
+ if (U16_IS_SURROGATE(c)) {
+ c = utext_previous32(ut);
+ if (c == U_SENTINEL) {
+ return FALSE;
+ }
+ } else {
+ ut->chunkOffset--;
+ }
+ } while(++delta<0);
+ }
+
+ return TRUE;
+}
+
+
+U_CAPI int64_t U_EXPORT2
+utext_nativeLength(UText *ut) {
+ return ut->pFuncs->nativeLength(ut);
+}
+
+
+U_CAPI UBool U_EXPORT2
+utext_isLengthExpensive(const UText *ut) {
+ UBool r = (ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE)) != 0;
+ return r;
+}
+
+
+U_CAPI int64_t U_EXPORT2
+utext_getNativeIndex(const UText *ut) {
+ if(ut->chunkOffset <= ut->nativeIndexingLimit) {
+ return ut->chunkNativeStart+ut->chunkOffset;
+ } else {
+ return ut->pFuncs->mapOffsetToNative(ut);
+ }
+}
+
+
+U_CAPI void U_EXPORT2
+utext_setNativeIndex(UText *ut, int64_t index) {
+ if(index<ut->chunkNativeStart || index>=ut->chunkNativeLimit) {
+ // The desired position is outside of the current chunk.
+ // Access the new position. Assume a forward iteration from here,
+ // which will also be optimimum for a single random access.
+ // Reverse iterations may suffer slightly.
+ ut->pFuncs->access(ut, index, TRUE);
+ } else if((int32_t)(index - ut->chunkNativeStart) <= ut->nativeIndexingLimit) {
+ // utf-16 indexing.
+ ut->chunkOffset=(int32_t)(index-ut->chunkNativeStart);
+ } else {
+ ut->chunkOffset=ut->pFuncs->mapNativeIndexToUTF16(ut, index);
+ }
+ // The convention is that the index must always be on a code point boundary.
+ // Adjust the index position if it is in the middle of a surrogate pair.
+ if (ut->chunkOffset<ut->chunkLength) {
+ UChar c= ut->chunkContents[ut->chunkOffset];
+ if (U16_IS_TRAIL(c)) {
+ if (ut->chunkOffset==0) {
+ ut->pFuncs->access(ut, ut->chunkNativeStart, FALSE);
+ }
+ if (ut->chunkOffset>0) {
+ UChar lead = ut->chunkContents[ut->chunkOffset-1];
+ if (U16_IS_LEAD(lead)) {
+ ut->chunkOffset--;
+ }
+ }
+ }
+ }
+}
+
+
+
+U_CAPI int64_t U_EXPORT2
+utext_getPreviousNativeIndex(UText *ut) {
+ //
+ // Fast-path the common case.
+ // Common means current position is not at the beginning of a chunk
+ // and the preceding character is not supplementary.
+ //
+ int32_t i = ut->chunkOffset - 1;
+ int64_t result;
+ if (i >= 0) {
+ UChar c = ut->chunkContents[i];
+ if (U16_IS_TRAIL(c) == FALSE) {
+ if (i <= ut->nativeIndexingLimit) {
+ result = ut->chunkNativeStart + i;
+ } else {
+ ut->chunkOffset = i;
+ result = ut->pFuncs->mapOffsetToNative(ut);
+ ut->chunkOffset++;
+ }
+ return result;
+ }
+ }
+
+ // If at the start of text, simply return 0.
+ if (ut->chunkOffset==0 && ut->chunkNativeStart==0) {
+ return 0;
+ }
+
+ // Harder, less common cases. We are at a chunk boundary, or on a surrogate.
+ // Keep it simple, use other functions to handle the edges.
+ //
+ utext_previous32(ut);
+ result = UTEXT_GETNATIVEINDEX(ut);
+ utext_next32(ut);
+ return result;
+}
+
+
+//
+// utext_current32. Get the UChar32 at the current position.
+// UText iteration position is always on a code point boundary,
+// never on the trail half of a surrogate pair.
+//
+U_CAPI UChar32 U_EXPORT2
+utext_current32(UText *ut) {
+ UChar32 c;
+ if (ut->chunkOffset==ut->chunkLength) {
+ // Current position is just off the end of the chunk.
+ if (ut->pFuncs->access(ut, ut->chunkNativeLimit, TRUE) == FALSE) {
+ // Off the end of the text.
+ return U_SENTINEL;
+ }
+ }
+
+ c = ut->chunkContents[ut->chunkOffset];
+ if (U16_IS_LEAD(c) == FALSE) {
+ // Normal, non-supplementary case.
+ return c;
+ }
+
+ //
+ // Possible supplementary char.
+ //
+ UChar32 trail = 0;
+ UChar32 supplementaryC = c;
+ if ((ut->chunkOffset+1) < ut->chunkLength) {
+ // The trail surrogate is in the same chunk.
+ trail = ut->chunkContents[ut->chunkOffset+1];
+ } else {
+ // The trail surrogate is in a different chunk.
+ // Because we must maintain the iteration position, we need to switch forward
+ // into the new chunk, get the trail surrogate, then revert the chunk back to the
+ // original one.
+ // An edge case to be careful of: the entire text may end with an unpaired
+ // leading surrogate. The attempt to access the trail will fail, but
+ // the original position before the unpaired lead still needs to be restored.
+ int64_t nativePosition = ut->chunkNativeLimit;
+ int32_t originalOffset = ut->chunkOffset;
+ if (ut->pFuncs->access(ut, nativePosition, TRUE)) {
+ trail = ut->chunkContents[ut->chunkOffset];
+ }
+ UBool r = ut->pFuncs->access(ut, nativePosition, FALSE); // reverse iteration flag loads preceding chunk
+ U_ASSERT(r==TRUE);
+ ut->chunkOffset = originalOffset;
+ if(!r) {
+ return U_SENTINEL;
+ }
+ }
+
+ if (U16_IS_TRAIL(trail)) {
+ supplementaryC = U16_GET_SUPPLEMENTARY(c, trail);
+ }
+ return supplementaryC;
+
+}
+
+
+U_CAPI UChar32 U_EXPORT2
+utext_char32At(UText *ut, int64_t nativeIndex) {
+ UChar32 c = U_SENTINEL;
+
+ // Fast path the common case.
+ if (nativeIndex>=ut->chunkNativeStart && nativeIndex < ut->chunkNativeStart + ut->nativeIndexingLimit) {
+ ut->chunkOffset = (int32_t)(nativeIndex - ut->chunkNativeStart);
+ c = ut->chunkContents[ut->chunkOffset];
+ if (U16_IS_SURROGATE(c) == FALSE) {
+ return c;
+ }
+ }
+
+
+ utext_setNativeIndex(ut, nativeIndex);
+ if (nativeIndex>=ut->chunkNativeStart && ut->chunkOffset<ut->chunkLength) {
+ c = ut->chunkContents[ut->chunkOffset];
+ if (U16_IS_SURROGATE(c)) {
+ // For surrogates, let current32() deal with the complications
+ // of supplementaries that may span chunk boundaries.
+ c = utext_current32(ut);
+ }
+ }
+ return c;
+}
+
+
+U_CAPI UChar32 U_EXPORT2
+utext_next32(UText *ut) {
+ UChar32 c;
+
+ if (ut->chunkOffset >= ut->chunkLength) {
+ if (ut->pFuncs->access(ut, ut->chunkNativeLimit, TRUE) == FALSE) {
+ return U_SENTINEL;
+ }
+ }
+
+ c = ut->chunkContents[ut->chunkOffset++];
+ if (U16_IS_LEAD(c) == FALSE) {
+ // Normal case, not supplementary.
+ // (A trail surrogate seen here is just returned as is, as a surrogate value.
+ // It cannot be part of a pair.)
+ return c;
+ }
+
+ if (ut->chunkOffset >= ut->chunkLength) {
+ if (ut->pFuncs->access(ut, ut->chunkNativeLimit, TRUE) == FALSE) {
+ // c is an unpaired lead surrogate at the end of the text.
+ // return it as it is.
+ return c;
+ }
+ }
+ UChar32 trail = ut->chunkContents[ut->chunkOffset];
+ if (U16_IS_TRAIL(trail) == FALSE) {
+ // c was an unpaired lead surrogate, not at the end of the text.
+ // return it as it is (unpaired). Iteration position is on the
+ // following character, possibly in the next chunk, where the
+ // trail surrogate would have been if it had existed.
+ return c;
+ }
+
+ UChar32 supplementary = U16_GET_SUPPLEMENTARY(c, trail);
+ ut->chunkOffset++; // move iteration position over the trail surrogate.
+ return supplementary;
+ }
+
+
+U_CAPI UChar32 U_EXPORT2
+utext_previous32(UText *ut) {
+ UChar32 c;
+
+ if (ut->chunkOffset <= 0) {
+ if (ut->pFuncs->access(ut, ut->chunkNativeStart, FALSE) == FALSE) {
+ return U_SENTINEL;
+ }
+ }
+ ut->chunkOffset--;
+ c = ut->chunkContents[ut->chunkOffset];
+ if (U16_IS_TRAIL(c) == FALSE) {
+ // Normal case, not supplementary.
+ // (A lead surrogate seen here is just returned as is, as a surrogate value.
+ // It cannot be part of a pair.)
+ return c;
+ }
+
+ if (ut->chunkOffset <= 0) {
+ if (ut->pFuncs->access(ut, ut->chunkNativeStart, FALSE) == FALSE) {
+ // c is an unpaired trail surrogate at the start of the text.
+ // return it as it is.
+ return c;
+ }
+ }
+
+ UChar32 lead = ut->chunkContents[ut->chunkOffset-1];
+ if (U16_IS_LEAD(lead) == FALSE) {
+ // c was an unpaired trail surrogate, not at the end of the text.
+ // return it as it is (unpaired). Iteration position is at c
+ return c;
+ }
+
+ UChar32 supplementary = U16_GET_SUPPLEMENTARY(lead, c);
+ ut->chunkOffset--; // move iteration position over the lead surrogate.
+ return supplementary;
+}
+
+
+
+U_CAPI UChar32 U_EXPORT2
+utext_next32From(UText *ut, int64_t index) {
+ UChar32 c = U_SENTINEL;
+
+ if(index<ut->chunkNativeStart || index>=ut->chunkNativeLimit) {
+ // Desired position is outside of the current chunk.
+ if(!ut->pFuncs->access(ut, index, TRUE)) {
+ // no chunk available here
+ return U_SENTINEL;
+ }
+ } else if (index - ut->chunkNativeStart <= (int64_t)ut->nativeIndexingLimit) {
+ // Desired position is in chunk, with direct 1:1 native to UTF16 indexing
+ ut->chunkOffset = (int32_t)(index - ut->chunkNativeStart);
+ } else {
+ // Desired position is in chunk, with non-UTF16 indexing.
+ ut->chunkOffset = ut->pFuncs->mapNativeIndexToUTF16(ut, index);
+ }
+
+ c = ut->chunkContents[ut->chunkOffset++];
+ if (U16_IS_SURROGATE(c)) {
+ // Surrogates. Many edge cases. Use other functions that already
+ // deal with the problems.
+ utext_setNativeIndex(ut, index);
+ c = utext_next32(ut);
+ }
+ return c;
+}
+
+
+U_CAPI UChar32 U_EXPORT2
+utext_previous32From(UText *ut, int64_t index) {
+ //
+ // Return the character preceding the specified index.
+ // Leave the iteration position at the start of the character that was returned.
+ //
+ UChar32 cPrev; // The character preceding cCurr, which is what we will return.
+
+ // Address the chunk containg the position preceding the incoming index
+ // A tricky edge case:
+ // We try to test the requested native index against the chunkNativeStart to determine
+ // whether the character preceding the one at the index is in the current chunk.
+ // BUT, this test can fail with UTF-8 (or any other multibyte encoding), when the
+ // requested index is on something other than the first position of the first char.
+ //
+ if(index<=ut->chunkNativeStart || index>ut->chunkNativeLimit) {
+ // Requested native index is outside of the current chunk.
+ if(!ut->pFuncs->access(ut, index, FALSE)) {
+ // no chunk available here
+ return U_SENTINEL;
+ }
+ } else if(index - ut->chunkNativeStart <= (int64_t)ut->nativeIndexingLimit) {
+ // Direct UTF-16 indexing.
+ ut->chunkOffset = (int32_t)(index - ut->chunkNativeStart);
+ } else {
+ ut->chunkOffset=ut->pFuncs->mapNativeIndexToUTF16(ut, index);
+ if (ut->chunkOffset==0 && !ut->pFuncs->access(ut, index, FALSE)) {
+ // no chunk available here
+ return U_SENTINEL;
+ }
+ }
+
+ //
+ // Simple case with no surrogates.
+ //
+ ut->chunkOffset--;
+ cPrev = ut->chunkContents[ut->chunkOffset];
+
+ if (U16_IS_SURROGATE(cPrev)) {
+ // Possible supplementary. Many edge cases.
+ // Let other functions do the heavy lifting.
+ utext_setNativeIndex(ut, index);
+ cPrev = utext_previous32(ut);
+ }
+ return cPrev;
+}
+
+
+U_CAPI int32_t U_EXPORT2
+utext_extract(UText *ut,
+ int64_t start, int64_t limit,
+ UChar *dest, int32_t destCapacity,
+ UErrorCode *status) {
+ return ut->pFuncs->extract(ut, start, limit, dest, destCapacity, status);
+ }
+
+
+
+U_CAPI UBool U_EXPORT2
+utext_equals(const UText *a, const UText *b) {
+ if (a==NULL || b==NULL ||
+ a->magic != UTEXT_MAGIC ||
+ b->magic != UTEXT_MAGIC) {
+ // Null or invalid arguments don't compare equal to anything.
+ return FALSE;
+ }
+
+ if (a->pFuncs != b->pFuncs) {
+ // Different types of text providers.
+ return FALSE;
+ }
+
+ if (a->context != b->context) {
+ // Different sources (different strings)
+ return FALSE;
+ }
+ if (utext_getNativeIndex(a) != utext_getNativeIndex(b)) {
+ // Different current position in the string.
+ return FALSE;
+ }
+
+ return TRUE;
+}
+
+U_CAPI UBool U_EXPORT2
+utext_isWritable(const UText *ut)
+{
+ UBool b = (ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_WRITABLE)) != 0;
+ return b;
+}
+
+
+U_CAPI void U_EXPORT2
+utext_freeze(UText *ut) {
+ // Zero out the WRITABLE flag.
+ ut->providerProperties &= ~(I32_FLAG(UTEXT_PROVIDER_WRITABLE));
+}
+
+
+U_CAPI UBool U_EXPORT2
+utext_hasMetaData(const UText *ut)
+{
+ UBool b = (ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_HAS_META_DATA)) != 0;
+ return b;
+}
+
+
+
+U_CAPI int32_t U_EXPORT2
+utext_replace(UText *ut,
+ int64_t nativeStart, int64_t nativeLimit,
+ const UChar *replacementText, int32_t replacementLength,
+ UErrorCode *status)
+{
+ if (U_FAILURE(*status)) {
+ return 0;
+ }
+ if ((ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_WRITABLE)) == 0) {
+ *status = U_NO_WRITE_PERMISSION;
+ return 0;
+ }
+ int32_t i = ut->pFuncs->replace(ut, nativeStart, nativeLimit, replacementText, replacementLength, status);
+ return i;
+}
+
+U_CAPI void U_EXPORT2
+utext_copy(UText *ut,
+ int64_t nativeStart, int64_t nativeLimit,
+ int64_t destIndex,
+ UBool move,
+ UErrorCode *status)
+{
+ if (U_FAILURE(*status)) {
+ return;
+ }
+ if ((ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_WRITABLE)) == 0) {
+ *status = U_NO_WRITE_PERMISSION;
+ return;
+ }
+ ut->pFuncs->copy(ut, nativeStart, nativeLimit, destIndex, move, status);
+}
+
+
+
+U_CAPI UText * U_EXPORT2
+utext_clone(UText *dest, const UText *src, UBool deep, UBool readOnly, UErrorCode *status) {
+ UText *result;
+ result = src->pFuncs->clone(dest, src, deep, status);
+ if (readOnly) {
+ utext_freeze(result);
+ }
+ return result;
+}
+
+
+
+//------------------------------------------------------------------------------
+//
+// UText common functions implementation
+//
+//------------------------------------------------------------------------------
+
+//
+// UText.flags bit definitions
+//
+enum {
+ UTEXT_HEAP_ALLOCATED = 1, // 1 if ICU has allocated this UText struct on the heap.
+ // 0 if caller provided storage for the UText.
+
+ UTEXT_EXTRA_HEAP_ALLOCATED = 2, // 1 if ICU has allocated extra storage as a separate
+ // heap block.
+ // 0 if there is no separate allocation. Either no extra
+ // storage was requested, or it is appended to the end
+ // of the main UText storage.
+
+ UTEXT_OPEN = 4 // 1 if this UText is currently open
+ // 0 if this UText is not open.
+};
+
+
+//
+// Extended form of a UText. The purpose is to aid in computing the total size required
+// when a provider asks for a UText to be allocated with extra storage.
+
+struct ExtendedUText {
+ UText ut;
+ UAlignedMemory extension;
+};
+
+static const UText emptyText = UTEXT_INITIALIZER;
+
+U_CAPI UText * U_EXPORT2
+utext_setup(UText *ut, int32_t extraSpace, UErrorCode *status) {
+ if (U_FAILURE(*status)) {
+ return ut;
+ }
+
+ if (ut == NULL) {
+ // We need to heap-allocate storage for the new UText
+ int32_t spaceRequired = sizeof(UText);
+ if (extraSpace > 0) {
+ spaceRequired = sizeof(ExtendedUText) + extraSpace - sizeof(UAlignedMemory);
+ }
+ ut = (UText *)uprv_malloc(spaceRequired);
+ if (ut == NULL) {
+ *status = U_MEMORY_ALLOCATION_ERROR;
+ return NULL;
+ } else {
+ *ut = emptyText;
+ ut->flags |= UTEXT_HEAP_ALLOCATED;
+ if (spaceRequired>0) {
+ ut->extraSize = extraSpace;
+ ut->pExtra = &((ExtendedUText *)ut)->extension;
+ }
+ }
+ } else {
+ // We have been supplied with an already existing UText.
+ // Verify that it really appears to be a UText.
+ if (ut->magic != UTEXT_MAGIC) {
+ *status = U_ILLEGAL_ARGUMENT_ERROR;
+ return ut;
+ }
+ // If the ut is already open and there's a provider supplied close
+ // function, call it.
+ if ((ut->flags & UTEXT_OPEN) && ut->pFuncs->close != NULL) {
+ ut->pFuncs->close(ut);
+ }
+ ut->flags &= ~UTEXT_OPEN;
+
+ // If extra space was requested by our caller, check whether
+ // sufficient already exists, and allocate new if needed.
+ if (extraSpace > ut->extraSize) {
+ // Need more space. If there is existing separately allocated space,
+ // delete it first, then allocate new space.
+ if (ut->flags & UTEXT_EXTRA_HEAP_ALLOCATED) {
+ uprv_free(ut->pExtra);
+ ut->extraSize = 0;
+ }
+ ut->pExtra = uprv_malloc(extraSpace);
+ if (ut->pExtra == NULL) {
+ *status = U_MEMORY_ALLOCATION_ERROR;
+ } else {
+ ut->extraSize = extraSpace;
+ ut->flags |= UTEXT_EXTRA_HEAP_ALLOCATED;
+ }
+ }
+ }
+ if (U_SUCCESS(*status)) {
+ ut->flags |= UTEXT_OPEN;
+
+ // Initialize all remaining fields of the UText.
+ //
+ ut->context = NULL;
+ ut->chunkContents = NULL;
+ ut->p = NULL;
+ ut->q = NULL;
+ ut->r = NULL;
+ ut->a = 0;
+ ut->b = 0;
+ ut->c = 0;
+ ut->chunkOffset = 0;
+ ut->chunkLength = 0;
+ ut->chunkNativeStart = 0;
+ ut->chunkNativeLimit = 0;
+ ut->nativeIndexingLimit = 0;
+ ut->providerProperties = 0;
+ ut->privA = 0;
+ ut->privB = 0;
+ ut->privC = 0;
+ ut->privP = NULL;
+ if (ut->pExtra!=NULL && ut->extraSize>0)
+ uprv_memset(ut->pExtra, 0, ut->extraSize);
+
+ }
+ return ut;
+}
+
+
+U_CAPI UText * U_EXPORT2
+utext_close(UText *ut) {
+ if (ut==NULL ||
+ ut->magic != UTEXT_MAGIC ||
+ (ut->flags & UTEXT_OPEN) == 0)
+ {
+ // The supplied ut is not an open UText.
+ // Do nothing.
+ return ut;
+ }
+
+ // If the provider gave us a close function, call it now.
+ // This will clean up anything allocated specifically by the provider.
+ if (ut->pFuncs->close != NULL) {
+ ut->pFuncs->close(ut);
+ }
+ ut->flags &= ~UTEXT_OPEN;
+
+ // If we (the framework) allocated the UText or subsidiary storage,
+ // delete it.
+ if (ut->flags & UTEXT_EXTRA_HEAP_ALLOCATED) {
+ uprv_free(ut->pExtra);
+ ut->pExtra = NULL;
+ ut->flags &= ~UTEXT_EXTRA_HEAP_ALLOCATED;
+ ut->extraSize = 0;
+ }
+
+ // Zero out function table of the closed UText. This is a defensive move,
+ // inteded to cause applications that inadvertantly use a closed
+ // utext to crash with null pointer errors.
+ ut->pFuncs = NULL;
+
+ if (ut->flags & UTEXT_HEAP_ALLOCATED) {
+ // This UText was allocated by UText setup. We need to free it.
+ // Clear magic, so we can detect if the user messes up and immediately
+ // tries to reopen another UText using the deleted storage.
+ ut->magic = 0;
+ uprv_free(ut);
+ ut = NULL;
+ }
+ return ut;
+}
+
+
+
+
+//
+// invalidateChunk Reset a chunk to have no contents, so that the next call
+// to access will cause new data to load.
+// This is needed when copy/move/replace operate directly on the
+// backing text, potentially putting it out of sync with the
+// contents in the chunk.
+//
+static void
+invalidateChunk(UText *ut) {
+ ut->chunkLength = 0;
+ ut->chunkNativeLimit = 0;
+ ut->chunkNativeStart = 0;
+ ut->chunkOffset = 0;
+ ut->nativeIndexingLimit = 0;
+}
+
+//
+// pinIndex Do range pinning on a native index parameter.
+// 64 bit pinning is done in place.
+// 32 bit truncated result is returned as a convenience for
+// use in providers that don't need 64 bits.
+static int32_t
+pinIndex(int64_t &index, int64_t limit) {
+ if (index<0) {
+ index = 0;
+ } else if (index > limit) {
+ index = limit;
+ }
+ return (int32_t)index;
+}
+
+
+U_CDECL_BEGIN
+
+//
+// Pointer relocation function,
+// a utility used by shallow clone.
+// Adjust a pointer that refers to something within one UText (the source)
+// to refer to the same relative offset within a another UText (the target)
+//
+static void adjustPointer(UText *dest, const void **destPtr, const UText *src) {
+ // convert all pointers to (char *) so that byte address arithmetic will work.
+ char *dptr = (char *)*destPtr;
+ char *dUText = (char *)dest;
+ char *sUText = (char *)src;
+
+ if (dptr >= (char *)src->pExtra && dptr < ((char*)src->pExtra)+src->extraSize) {
+ // target ptr was to something within the src UText's pExtra storage.
+ // relocate it into the target UText's pExtra region.
+ *destPtr = ((char *)dest->pExtra) + (dptr - (char *)src->pExtra);
+ } else if (dptr>=sUText && dptr < sUText+src->sizeOfStruct) {
+ // target ptr was pointing to somewhere within the source UText itself.
+ // Move it to the same offset within the target UText.
+ *destPtr = dUText + (dptr-sUText);
+ }
+}
+
+
+//
+// Clone. This is a generic copy-the-utext-by-value clone function that can be
+// used as-is with some utext types, and as a helper by other clones.
+//
+static UText * U_CALLCONV
+shallowTextClone(UText * dest, const UText * src, UErrorCode * status) {
+ if (U_FAILURE(*status)) {
+ return NULL;
+ }
+ int32_t srcExtraSize = src->extraSize;
+
+ //
+ // Use the generic text_setup to allocate storage if required.
+ //
+ dest = utext_setup(dest, srcExtraSize, status);
+ if (U_FAILURE(*status)) {
+ return dest;
+ }
+
+ //
+ // flags (how the UText was allocated) and the pointer to the
+ // extra storage must retain the values in the cloned utext that
+ // were set up by utext_setup. Save them separately before
+ // copying the whole struct.
+ //
+ void *destExtra = dest->pExtra;
+ int32_t flags = dest->flags;
+
+
+ //
+ // Copy the whole UText struct by value.
+ // Any "Extra" storage is copied also.
+ //
+ int sizeToCopy = src->sizeOfStruct;
+ if (sizeToCopy > dest->sizeOfStruct) {
+ sizeToCopy = dest->sizeOfStruct;
+ }
+ uprv_memcpy(dest, src, sizeToCopy);
+ dest->pExtra = destExtra;
+ dest->flags = flags;
+ if (srcExtraSize > 0) {
+ uprv_memcpy(dest->pExtra, src->pExtra, srcExtraSize);
+ }
+
+ //
+ // Relocate any pointers in the target that refer to the UText itself
+ // to point to the cloned copy rather than the original source.
+ //
+ adjustPointer(dest, &dest->context, src);
+ adjustPointer(dest, &dest->p, src);
+ adjustPointer(dest, &dest->q, src);
+ adjustPointer(dest, &dest->r, src);
+ adjustPointer(dest, (const void **)&dest->chunkContents, src);
+
+ return dest;
+}
+
+
+U_CDECL_END
+
+
+
+//------------------------------------------------------------------------------
+//
+// UText implementation for UTF-8 char * strings (read-only)
+// Limitation: string length must be <= 0x7fffffff in length.
+// (length must for in an int32_t variable)
+//
+// Use of UText data members:
+// context pointer to UTF-8 string
+// utext.b is the input string length (bytes).
+// utext.c Length scanned so far in string
+// (for optimizing finding length of zero terminated strings.)
+// utext.p pointer to the current buffer
+// utext.q pointer to the other buffer.
+//
+//------------------------------------------------------------------------------
+
+// Chunk size.
+// Must be less than 85, because of byte mapping from UChar indexes to native indexes.
+// Worst case is three native bytes to one UChar. (Supplemenaries are 4 native bytes
+// to two UChars.)
+//
+enum { UTF8_TEXT_CHUNK_SIZE=32 };
+
+//
+// UTF8Buf Two of these structs will be set up in the UText's extra allocated space.
+// Each contains the UChar chunk buffer, the to and from native maps, and
+// header info.
+//
+// because backwards iteration fills the buffers starting at the end and
+// working towards the front, the filled part of the buffers may not begin
+// at the start of the available storage for the buffers.
+//
+// Buffer size is one bigger than the specified UTF8_TEXT_CHUNK_SIZE to allow for
+// the last character added being a supplementary, and thus requiring a surrogate
+// pair. Doing this is simpler than checking for the edge case.
+//
+
+struct UTF8Buf {
+ int32_t bufNativeStart; // Native index of first char in UChar buf
+ int32_t bufNativeLimit; // Native index following last char in buf.
+ int32_t bufStartIdx; // First filled position in buf.
+ int32_t bufLimitIdx; // Limit of filled range in buf.
+ int32_t bufNILimit; // Limit of native indexing part of buf
+ int32_t toUCharsMapStart; // Native index corresponding to
+ // mapToUChars[0].
+ // Set to bufNativeStart when filling forwards.
+ // Set to computed value when filling backwards.
+
+ UChar buf[UTF8_TEXT_CHUNK_SIZE+4]; // The UChar buffer. Requires one extra position beyond the
+ // the chunk size, to allow for surrogate at the end.
+ // Length must be identical to mapToNative array, below,
+ // because of the way indexing works when the array is
+ // filled backwards during a reverse iteration. Thus,
+ // the additional extra size.
+ uint8_t mapToNative[UTF8_TEXT_CHUNK_SIZE+4]; // map UChar index in buf to
+ // native offset from bufNativeStart.
+ // Requires two extra slots,
+ // one for a supplementary starting in the last normal position,
+ // and one for an entry for the buffer limit position.
+ uint8_t mapToUChars[UTF8_TEXT_CHUNK_SIZE*3+6]; // Map native offset from bufNativeStart to
+ // correspoding offset in filled part of buf.
+ int32_t align;
+};
+
+U_CDECL_BEGIN
+
+//
+// utf8TextLength
+//
+// Get the length of the string. If we don't already know it,
+// we'll need to scan for the trailing nul.
+//
+static int64_t U_CALLCONV
+utf8TextLength(UText *ut) {
+ if (ut->b < 0) {
+ // Zero terminated string, and we haven't scanned to the end yet.
+ // Scan it now.
+ const char *r = (const char *)ut->context + ut->c;
+ while (*r != 0) {
+ r++;
+ }
+ if ((r - (const char *)ut->context) < 0x7fffffff) {
+ ut->b = (int32_t)(r - (const char *)ut->context);
+ } else {
+ // Actual string was bigger (more than 2 gig) than we
+ // can handle. Clip it to 2 GB.
+ ut->b = 0x7fffffff;
+ }
+ ut->providerProperties &= ~I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ }
+ return ut->b;
+}
+
+
+
+
+
+
+static UBool U_CALLCONV
+utf8TextAccess(UText *ut, int64_t index, UBool forward) {
+ //
+ // Apologies to those who are allergic to goto statements.
+ // Consider each goto to a labelled block to be the equivalent of
+ // call the named block as if it were a function();
+ // return;
+ //
+ const uint8_t *s8=(const uint8_t *)ut->context;
+ UTF8Buf *u8b = NULL;
+ int32_t length = ut->b; // Length of original utf-8
+ int32_t ix= (int32_t)index; // Requested index, trimmed to 32 bits.
+ int32_t mapIndex = 0;
+ if (index<0) {
+ ix=0;
+ } else if (index > 0x7fffffff) {
+ // Strings with 64 bit lengths not supported by this UTF-8 provider.
+ ix = 0x7fffffff;
+ }
+
+ // Pin requested index to the string length.
+ if (ix>length) {
+ if (length>=0) {
+ ix=length;
+ } else if (ix>=ut->c) {
+ // Zero terminated string, and requested index is beyond
+ // the region that has already been scanned.
+ // Scan up to either the end of the string or to the
+ // requested position, whichever comes first.
+ while (ut->c<ix && s8[ut->c]!=0) {
+ ut->c++;
+ }
+ // TODO: support for null terminated string length > 32 bits.
+ if (s8[ut->c] == 0) {
+ // We just found the actual length of the string.
+ // Trim the requested index back to that.
+ ix = ut->c;
+ ut->b = ut->c;
+ length = ut->c;
+ ut->providerProperties &= ~I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ }
+ }
+ }
+
+ //
+ // Dispatch to the appropriate action for a forward iteration request.
+ //
+ if (forward) {
+ if (ix==ut->chunkNativeLimit) {
+ // Check for normal sequential iteration cases first.
+ if (ix==length) {
+ // Just reached end of string
+ // Don't swap buffers, but do set the
+ // current buffer position.
+ ut->chunkOffset = ut->chunkLength;
+ return FALSE;
+ } else {
+ // End of current buffer.
+ // check whether other buffer already has what we need.
+ UTF8Buf *altB = (UTF8Buf *)ut->q;
+ if (ix>=altB->bufNativeStart && ix<altB->bufNativeLimit) {
+ goto swapBuffers;
+ }
+ }
+ }
+
+ // A random access. Desired index could be in either or niether buf.
+ // For optimizing the order of testing, first check for the index
+ // being in the other buffer. This will be the case for uses that
+ // move back and forth over a fairly limited range
+ {
+ u8b = (UTF8Buf *)ut->q; // the alternate buffer
+ if (ix>=u8b->bufNativeStart && ix<u8b->bufNativeLimit) {
+ // Requested index is in the other buffer.
+ goto swapBuffers;
+ }
+ if (ix == length) {
+ // Requested index is end-of-string.
+ // (this is the case of randomly seeking to the end.
+ // The case of iterating off the end is handled earlier.)
+ if (ix == ut->chunkNativeLimit) {
+ // Current buffer extends up to the end of the string.
+ // Leave it as the current buffer.
+ ut->chunkOffset = ut->chunkLength;
+ return FALSE;
+ }
+ if (ix == u8b->bufNativeLimit) {
+ // Alternate buffer extends to the end of string.
+ // Swap it in as the current buffer.
+ goto swapBuffersAndFail;
+ }
+
+ // Neither existing buffer extends to the end of the string.
+ goto makeStubBuffer;
+ }
+
+ if (ix<ut->chunkNativeStart || ix>=ut->chunkNativeLimit) {
+ // Requested index is in neither buffer.
+ goto fillForward;
+ }
+
+ // Requested index is in this buffer.
+ u8b = (UTF8Buf *)ut->p; // the current buffer
+ mapIndex = ix - u8b->toUCharsMapStart;
+ ut->chunkOffset = u8b->mapToUChars[mapIndex] - u8b->bufStartIdx;
+ return TRUE;
+
+ }
+ }
+
+
+ //
+ // Dispatch to the appropriate action for a
+ // Backwards Diretion iteration request.
+ //
+ if (ix==ut->chunkNativeStart) {
+ // Check for normal sequential iteration cases first.
+ if (ix==0) {
+ // Just reached the start of string
+ // Don't swap buffers, but do set the
+ // current buffer position.
+ ut->chunkOffset = 0;
+ return FALSE;
+ } else {
+ // Start of current buffer.
+ // check whether other buffer already has what we need.
+ UTF8Buf *altB = (UTF8Buf *)ut->q;
+ if (ix>altB->bufNativeStart && ix<=altB->bufNativeLimit) {
+ goto swapBuffers;
+ }
+ }
+ }
+
+ // A random access. Desired index could be in either or niether buf.
+ // For optimizing the order of testing,
+ // Most likely case: in the other buffer.
+ // Second most likely: in neither buffer.
+ // Unlikely, but must work: in the current buffer.
+ u8b = (UTF8Buf *)ut->q; // the alternate buffer
+ if (ix>u8b->bufNativeStart && ix<=u8b->bufNativeLimit) {
+ // Requested index is in the other buffer.
+ goto swapBuffers;
+ }
+ // Requested index is start-of-string.
+ // (this is the case of randomly seeking to the start.
+ // The case of iterating off the start is handled earlier.)
+ if (ix==0) {
+ if (u8b->bufNativeStart==0) {
+ // Alternate buffer contains the data for the start string.
+ // Make it be the current buffer.
+ goto swapBuffersAndFail;
+ } else {
+ // Request for data before the start of string,
+ // neither buffer is usable.
+ // set up a zero-length buffer.
+ goto makeStubBuffer;
+ }
+ }
+
+ if (ix<=ut->chunkNativeStart || ix>ut->chunkNativeLimit) {
+ // Requested index is in neither buffer.
+ goto fillReverse;
+ }
+
+ // Requested index is in this buffer.
+ // Set the utf16 buffer index.
+ u8b = (UTF8Buf *)ut->p;
+ mapIndex = ix - u8b->toUCharsMapStart;
+ ut->chunkOffset = u8b->mapToUChars[mapIndex] - u8b->bufStartIdx;
+ if (ut->chunkOffset==0) {
+ // This occurs when the first character in the text is
+ // a multi-byte UTF-8 char, and the requested index is to
+ // one of the trailing bytes. Because there is no preceding ,
+ // character, this access fails. We can't pick up on the
+ // situation sooner because the requested index is not zero.
+ return FALSE;
+ } else {
+ return TRUE;
+ }
+
+
+
+swapBuffers:
+ // The alternate buffer (ut->q) has the string data that was requested.
+ // Swap the primary and alternate buffers, and set the
+ // chunk index into the new primary buffer.
+ {
+ u8b = (UTF8Buf *)ut->q;
+ ut->q = ut->p;
+ ut->p = u8b;
+ ut->chunkContents = &u8b->buf[u8b->bufStartIdx];
+ ut->chunkLength = u8b->bufLimitIdx - u8b->bufStartIdx;
+ ut->chunkNativeStart = u8b->bufNativeStart;
+ ut->chunkNativeLimit = u8b->bufNativeLimit;
+ ut->nativeIndexingLimit = u8b->bufNILimit;
+
+ // Index into the (now current) chunk
+ // Use the map to set the chunk index. It's more trouble than it's worth
+ // to check whether native indexing can be used.
+ U_ASSERT(ix>=u8b->bufNativeStart);
+ U_ASSERT(ix<=u8b->bufNativeLimit);
+ mapIndex = ix - u8b->toUCharsMapStart;
+ U_ASSERT(mapIndex>=0);
+ U_ASSERT(mapIndex<(int32_t)sizeof(u8b->mapToUChars));
+ ut->chunkOffset = u8b->mapToUChars[mapIndex] - u8b->bufStartIdx;
+
+ return TRUE;
+ }
+
+
+ swapBuffersAndFail:
+ // We got a request for either the start or end of the string,
+ // with iteration continuing in the out-of-bounds direction.
+ // The alternate buffer already contains the data up to the
+ // start/end.
+ // Swap the buffers, then return failure, indicating that we couldn't
+ // make things correct for continuing the iteration in the requested
+ // direction. The position & buffer are correct should the
+ // user decide to iterate in the opposite direction.
+ u8b = (UTF8Buf *)ut->q;
+ ut->q = ut->p;
+ ut->p = u8b;
+ ut->chunkContents = &u8b->buf[u8b->bufStartIdx];
+ ut->chunkLength = u8b->bufLimitIdx - u8b->bufStartIdx;
+ ut->chunkNativeStart = u8b->bufNativeStart;
+ ut->chunkNativeLimit = u8b->bufNativeLimit;
+ ut->nativeIndexingLimit = u8b->bufNILimit;
+
+ // Index into the (now current) chunk
+ // For this function (swapBuffersAndFail), the requested index
+ // will always be at either the start or end of the chunk.
+ if (ix==u8b->bufNativeLimit) {
+ ut->chunkOffset = ut->chunkLength;
+ } else {
+ ut->chunkOffset = 0;
+ U_ASSERT(ix == u8b->bufNativeStart);
+ }
+ return FALSE;
+
+makeStubBuffer:
+ // The user has done a seek/access past the start or end
+ // of the string. Rather than loading data that is likely
+ // to never be used, just set up a zero-length buffer at
+ // the position.
+ u8b = (UTF8Buf *)ut->q;
+ u8b->bufNativeStart = ix;
+ u8b->bufNativeLimit = ix;
+ u8b->bufStartIdx = 0;
+ u8b->bufLimitIdx = 0;
+ u8b->bufNILimit = 0;
+ u8b->toUCharsMapStart = ix;
+ u8b->mapToNative[0] = 0;
+ u8b->mapToUChars[0] = 0;
+ goto swapBuffersAndFail;
+
+
+
+fillForward:
+ {
+ // Move the incoming index to a code point boundary.
+ U8_SET_CP_START(s8, 0, ix);
+
+ // Swap the UText buffers.
+ // We want to fill what was previously the alternate buffer,
+ // and make what was the current buffer be the new alternate.
+ UTF8Buf *u8b = (UTF8Buf *)ut->q;
+ ut->q = ut->p;
+ ut->p = u8b;
+
+ int32_t strLen = ut->b;
+ UBool nulTerminated = FALSE;
+ if (strLen < 0) {
+ strLen = 0x7fffffff;
+ nulTerminated = TRUE;
+ }
+
+ UChar *buf = u8b->buf;
+ uint8_t *mapToNative = u8b->mapToNative;
+ uint8_t *mapToUChars = u8b->mapToUChars;
+ int32_t destIx = 0;
+ int32_t srcIx = ix;
+ UBool seenNonAscii = FALSE;
+ UChar32 c = 0;
+
+ // Fill the chunk buffer and mapping arrays.
+ while (destIx<UTF8_TEXT_CHUNK_SIZE) {
+ c = s8[srcIx];
+ if (c>0 && c<0x80) {
+ // Special case ASCII range for speed.
+ // zero is excluded to simplify bounds checking.
+ buf[destIx] = (UChar)c;
+ mapToNative[destIx] = (uint8_t)(srcIx - ix);
+ mapToUChars[srcIx-ix] = (uint8_t)destIx;
+ srcIx++;
+ destIx++;
+ } else {
+ // General case, handle everything.
+ if (seenNonAscii == FALSE) {
+ seenNonAscii = TRUE;
+ u8b->bufNILimit = destIx;
+ }
+
+ int32_t cIx = srcIx;
+ int32_t dIx = destIx;
+ int32_t dIxSaved = destIx;
+ U8_NEXT_OR_FFFD(s8, srcIx, strLen, c);
+ if (c==0 && nulTerminated) {
+ srcIx--;
+ break;
+ }
+
+ U16_APPEND_UNSAFE(buf, destIx, c);
+ do {
+ mapToNative[dIx++] = (uint8_t)(cIx - ix);
+ } while (dIx < destIx);
+
+ do {
+ mapToUChars[cIx++ - ix] = (uint8_t)dIxSaved;
+ } while (cIx < srcIx);
+ }
+ if (srcIx>=strLen) {
+ break;
+ }
+
+ }
+
+ // store Native <--> Chunk Map entries for the end of the buffer.
+ // There is no actual character here, but the index position is valid.
+ mapToNative[destIx] = (uint8_t)(srcIx - ix);
+ mapToUChars[srcIx - ix] = (uint8_t)destIx;
+
+ // fill in Buffer descriptor
+ u8b->bufNativeStart = ix;
+ u8b->bufNativeLimit = srcIx;
+ u8b->bufStartIdx = 0;
+ u8b->bufLimitIdx = destIx;
+ if (seenNonAscii == FALSE) {
+ u8b->bufNILimit = destIx;
+ }
+ u8b->toUCharsMapStart = u8b->bufNativeStart;
+
+ // Set UText chunk to refer to this buffer.
+ ut->chunkContents = buf;
+ ut->chunkOffset = 0;
+ ut->chunkLength = u8b->bufLimitIdx;
+ ut->chunkNativeStart = u8b->bufNativeStart;
+ ut->chunkNativeLimit = u8b->bufNativeLimit;
+ ut->nativeIndexingLimit = u8b->bufNILimit;
+
+ // For zero terminated strings, keep track of the maximum point
+ // scanned so far.
+ if (nulTerminated && srcIx>ut->c) {
+ ut->c = srcIx;
+ if (c==0) {
+ // We scanned to the end.
+ // Remember the actual length.
+ ut->b = srcIx;
+ ut->providerProperties &= ~I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ }
+ }
+ return TRUE;
+ }
+
+
+fillReverse:
+ {
+ // Move the incoming index to a code point boundary.
+ // Can only do this if the incoming index is somewhere in the interior of the string.
+ // If index is at the end, there is no character there to look at.
+ if (ix != ut->b) {
+ U8_SET_CP_START(s8, 0, ix);
+ }
+
+ // Swap the UText buffers.
+ // We want to fill what was previously the alternate buffer,
+ // and make what was the current buffer be the new alternate.
+ UTF8Buf *u8b = (UTF8Buf *)ut->q;
+ ut->q = ut->p;
+ ut->p = u8b;
+
+ UChar *buf = u8b->buf;
+ uint8_t *mapToNative = u8b->mapToNative;
+ uint8_t *mapToUChars = u8b->mapToUChars;
+ int32_t toUCharsMapStart = ix - (UTF8_TEXT_CHUNK_SIZE*3 + 1);
+ int32_t destIx = UTF8_TEXT_CHUNK_SIZE+2; // Start in the overflow region
+ // at end of buffer to leave room
+ // for a surrogate pair at the
+ // buffer start.
+ int32_t srcIx = ix;
+ int32_t bufNILimit = destIx;
+ UChar32 c;
+
+ // Map to/from Native Indexes, fill in for the position at the end of
+ // the buffer.
+ //
+ mapToNative[destIx] = (uint8_t)(srcIx - toUCharsMapStart);
+ mapToUChars[srcIx - toUCharsMapStart] = (uint8_t)destIx;
+
+ // Fill the chunk buffer
+ // Work backwards, filling from the end of the buffer towards the front.
+ //
+ while (destIx>2 && (srcIx - toUCharsMapStart > 5) && (srcIx > 0)) {
+ srcIx--;
+ destIx--;
+
+ // Get last byte of the UTF-8 character
+ c = s8[srcIx];
+ if (c<0x80) {
+ // Special case ASCII range for speed.
+ buf[destIx] = (UChar)c;
+ mapToUChars[srcIx - toUCharsMapStart] = (uint8_t)destIx;
+ mapToNative[destIx] = (uint8_t)(srcIx - toUCharsMapStart);
+ } else {
+ // General case, handle everything non-ASCII.
+
+ int32_t sIx = srcIx; // ix of last byte of multi-byte u8 char
+
+ // Get the full character from the UTF8 string.
+ // use code derived from tbe macros in utf8.h
+ // Leaves srcIx pointing at the first byte of the UTF-8 char.
+ //
+ c=utf8_prevCharSafeBody(s8, 0, &srcIx, c, -3);
+ // leaves srcIx at first byte of the multi-byte char.
+
+ // Store the character in UTF-16 buffer.
+ if (c<0x10000) {
+ buf[destIx] = (UChar)c;
+ mapToNative[destIx] = (uint8_t)(srcIx - toUCharsMapStart);
+ } else {
+ buf[destIx] = U16_TRAIL(c);
+ mapToNative[destIx] = (uint8_t)(srcIx - toUCharsMapStart);
+ buf[--destIx] = U16_LEAD(c);
+ mapToNative[destIx] = (uint8_t)(srcIx - toUCharsMapStart);
+ }
+
+ // Fill in the map from native indexes to UChars buf index.
+ do {
+ mapToUChars[sIx-- - toUCharsMapStart] = (uint8_t)destIx;
+ } while (sIx >= srcIx);
+
+ // Set native indexing limit to be the current position.
+ // We are processing a non-ascii, non-native-indexing char now;
+ // the limit will be here if the rest of the chars to be
+ // added to this buffer are ascii.
+ bufNILimit = destIx;
+ }
+ }
+ u8b->bufNativeStart = srcIx;
+ u8b->bufNativeLimit = ix;
+ u8b->bufStartIdx = destIx;
+ u8b->bufLimitIdx = UTF8_TEXT_CHUNK_SIZE+2;
+ u8b->bufNILimit = bufNILimit - u8b->bufStartIdx;
+ u8b->toUCharsMapStart = toUCharsMapStart;
+
+ ut->chunkContents = &buf[u8b->bufStartIdx];
+ ut->chunkLength = u8b->bufLimitIdx - u8b->bufStartIdx;
+ ut->chunkOffset = ut->chunkLength;
+ ut->chunkNativeStart = u8b->bufNativeStart;
+ ut->chunkNativeLimit = u8b->bufNativeLimit;
+ ut->nativeIndexingLimit = u8b->bufNILimit;
+ return TRUE;
+ }
+
+}
+
+
+
+//
+// This is a slightly modified copy of u_strFromUTF8,
+// Inserts a Replacement Char rather than failing on invalid UTF-8
+// Removes unnecessary features.
+//
+static UChar*
+utext_strFromUTF8(UChar *dest,
+ int32_t destCapacity,
+ int32_t *pDestLength,
+ const char* src,
+ int32_t srcLength, // required. NUL terminated not supported.
+ UErrorCode *pErrorCode
+ )
+{
+
+ UChar *pDest = dest;
+ UChar *pDestLimit = (dest!=NULL)?(dest+destCapacity):NULL;
+ UChar32 ch=0;
+ int32_t index = 0;
+ int32_t reqLength = 0;
+ uint8_t* pSrc = (uint8_t*) src;
+
+
+ while((index < srcLength)&&(pDest<pDestLimit)){
+ ch = pSrc[index++];
+ if(ch <=0x7f){
+ *pDest++=(UChar)ch;
+ }else{
+ ch=utf8_nextCharSafeBody(pSrc, &index, srcLength, ch, -3);
+ if(U_IS_BMP(ch)){
+ *(pDest++)=(UChar)ch;
+ }else{
+ *(pDest++)=U16_LEAD(ch);
+ if(pDest<pDestLimit){
+ *(pDest++)=U16_TRAIL(ch);
+ }else{
+ reqLength++;
+ break;
+ }
+ }
+ }
+ }
+ /* donot fill the dest buffer just count the UChars needed */
+ while(index < srcLength){
+ ch = pSrc[index++];
+ if(ch <= 0x7f){
+ reqLength++;
+ }else{
+ ch=utf8_nextCharSafeBody(pSrc, &index, srcLength, ch, -3);
+ reqLength+=U16_LENGTH(ch);
+ }
+ }
+
+ reqLength+=(int32_t)(pDest - dest);
+
+ if(pDestLength){
+ *pDestLength = reqLength;
+ }
+
+ /* Terminate the buffer */
+ u_terminateUChars(dest,destCapacity,reqLength,pErrorCode);
+
+ return dest;
+}
+
+
+
+static int32_t U_CALLCONV
+utf8TextExtract(UText *ut,
+ int64_t start, int64_t limit,
+ UChar *dest, int32_t destCapacity,
+ UErrorCode *pErrorCode) {
+ if(U_FAILURE(*pErrorCode)) {
+ return 0;
+ }
+ if(destCapacity<0 || (dest==NULL && destCapacity>0)) {
+ *pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
+ return 0;
+ }
+ int32_t length = ut->b;
+ int32_t start32 = pinIndex(start, length);
+ int32_t limit32 = pinIndex(limit, length);
+
+ if(start32>limit32) {
+ *pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
+ return 0;
+ }
+
+
+ // adjust the incoming indexes to land on code point boundaries if needed.
+ // adjust by no more than three, because that is the largest number of trail bytes
+ // in a well formed UTF8 character.
+ const uint8_t *buf = (const uint8_t *)ut->context;
+ int i;
+ if (start32 < ut->chunkNativeLimit) {
+ for (i=0; i<3; i++) {
+ if (U8_IS_SINGLE(buf[start32]) || U8_IS_LEAD(buf[start32]) || start32==0) {
+ break;
+ }
+ start32--;
+ }
+ }
+
+ if (limit32 < ut->chunkNativeLimit) {
+ for (i=0; i<3; i++) {
+ if (U8_IS_SINGLE(buf[limit32]) || U8_IS_LEAD(buf[limit32]) || limit32==0) {
+ break;
+ }
+ limit32--;
+ }
+ }
+
+ // Do the actual extract.
+ int32_t destLength=0;
+ utext_strFromUTF8(dest, destCapacity, &destLength,
+ (const char *)ut->context+start32, limit32-start32,
+ pErrorCode);
+ utf8TextAccess(ut, limit32, TRUE);
+ return destLength;
+}
+
+//
+// utf8TextMapOffsetToNative
+//
+// Map a chunk (UTF-16) offset to a native index.
+static int64_t U_CALLCONV
+utf8TextMapOffsetToNative(const UText *ut) {
+ //
+ UTF8Buf *u8b = (UTF8Buf *)ut->p;
+ U_ASSERT(ut->chunkOffset>ut->nativeIndexingLimit && ut->chunkOffset<=ut->chunkLength);
+ int32_t nativeOffset = u8b->mapToNative[ut->chunkOffset + u8b->bufStartIdx] + u8b->toUCharsMapStart;
+ U_ASSERT(nativeOffset >= ut->chunkNativeStart && nativeOffset <= ut->chunkNativeLimit);
+ return nativeOffset;
+}
+
+//
+// Map a native index to the corrsponding chunk offset
+//
+static int32_t U_CALLCONV
+utf8TextMapIndexToUTF16(const UText *ut, int64_t index64) {
+ U_ASSERT(index64 <= 0x7fffffff);
+ int32_t index = (int32_t)index64;
+ UTF8Buf *u8b = (UTF8Buf *)ut->p;
+ U_ASSERT(index>=ut->chunkNativeStart+ut->nativeIndexingLimit);
+ U_ASSERT(index<=ut->chunkNativeLimit);
+ int32_t mapIndex = index - u8b->toUCharsMapStart;
+ int32_t offset = u8b->mapToUChars[mapIndex] - u8b->bufStartIdx;
+ U_ASSERT(offset>=0 && offset<=ut->chunkLength);
+ return offset;
+}
+
+static UText * U_CALLCONV
+utf8TextClone(UText *dest, const UText *src, UBool deep, UErrorCode *status)
+{
+ // First do a generic shallow clone. Does everything needed for the UText struct itself.
+ dest = shallowTextClone(dest, src, status);
+
+ // For deep clones, make a copy of the string.
+ // The copied storage is owned by the newly created clone.
+ //
+ // TODO: There is an isssue with using utext_nativeLength().
+ // That function is non-const in cases where the input was NUL terminated
+ // and the length has not yet been determined.
+ // This function (clone()) is const.
+ // There potentially a thread safety issue lurking here.
+ //
+ if (deep && U_SUCCESS(*status)) {
+ int32_t len = (int32_t)utext_nativeLength((UText *)src);
+ char *copyStr = (char *)uprv_malloc(len+1);
+ if (copyStr == NULL) {
+ *status = U_MEMORY_ALLOCATION_ERROR;
+ } else {
+ uprv_memcpy(copyStr, src->context, len+1);
+ dest->context = copyStr;
+ dest->providerProperties |= I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT);
+ }
+ }
+ return dest;
+}
+
+
+static void U_CALLCONV
+utf8TextClose(UText *ut) {
+ // Most of the work of close is done by the generic UText framework close.
+ // All that needs to be done here is to delete the UTF8 string if the UText
+ // owns it. This occurs if the UText was created by cloning.
+ if (ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT)) {
+ char *s = (char *)ut->context;
+ uprv_free(s);
+ ut->context = NULL;
+ }
+}
+
+U_CDECL_END
+
+
+static const struct UTextFuncs utf8Funcs =
+{
+ sizeof(UTextFuncs),
+ 0, 0, 0, // Reserved alignment padding
+ utf8TextClone,
+ utf8TextLength,
+ utf8TextAccess,
+ utf8TextExtract,
+ NULL, /* replace*/
+ NULL, /* copy */
+ utf8TextMapOffsetToNative,
+ utf8TextMapIndexToUTF16,
+ utf8TextClose,
+ NULL, // spare 1
+ NULL, // spare 2
+ NULL // spare 3
+};
+
+
+static const char gEmptyString[] = {0};
+
+U_CAPI UText * U_EXPORT2
+utext_openUTF8(UText *ut, const char *s, int64_t length, UErrorCode *status) {
+ if(U_FAILURE(*status)) {
+ return NULL;
+ }
+ if(s==NULL && length==0) {
+ s = gEmptyString;
+ }
+
+ if(s==NULL || length<-1 || length>INT32_MAX) {
+ *status=U_ILLEGAL_ARGUMENT_ERROR;
+ return NULL;
+ }
+
+ ut = utext_setup(ut, sizeof(UTF8Buf) * 2, status);
+ if (U_FAILURE(*status)) {
+ return ut;
+ }
+
+ ut->pFuncs = &utf8Funcs;
+ ut->context = s;
+ ut->b = (int32_t)length;
+ ut->c = (int32_t)length;
+ if (ut->c < 0) {
+ ut->c = 0;
+ ut->providerProperties |= I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ }
+ ut->p = ut->pExtra;
+ ut->q = (char *)ut->pExtra + sizeof(UTF8Buf);
+ return ut;
+
+}
+
+
+
+
+
+
+
+
+//------------------------------------------------------------------------------
+//
+// UText implementation wrapper for Replaceable (read/write)
+//
+// Use of UText data members:
+// context pointer to Replaceable.
+// p pointer to Replaceable if it is owned by the UText.
+//
+//------------------------------------------------------------------------------
+
+
+
+// minimum chunk size for this implementation: 3
+// to allow for possible trimming for code point boundaries
+enum { REP_TEXT_CHUNK_SIZE=10 };
+
+struct ReplExtra {
+ /*
+ * Chunk UChars.
+ * +1 to simplify filling with surrogate pair at the end.
+ */
+ UChar s[REP_TEXT_CHUNK_SIZE+1];
+};
+
+
+U_CDECL_BEGIN
+
+static UText * U_CALLCONV
+repTextClone(UText *dest, const UText *src, UBool deep, UErrorCode *status) {
+ // First do a generic shallow clone. Does everything needed for the UText struct itself.
+ dest = shallowTextClone(dest, src, status);
+
+ // For deep clones, make a copy of the Replaceable.
+ // The copied Replaceable storage is owned by the newly created UText clone.
+ // A non-NULL pointer in UText.p is the signal to the close() function to delete
+ // it.
+ //
+ if (deep && U_SUCCESS(*status)) {
+ const Replaceable *replSrc = (const Replaceable *)src->context;
+ dest->context = replSrc->clone();
+ dest->providerProperties |= I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT);
+
+ // with deep clone, the copy is writable, even when the source is not.
+ dest->providerProperties |= I32_FLAG(UTEXT_PROVIDER_WRITABLE);
+ }
+ return dest;
+}
+
+
+static void U_CALLCONV
+repTextClose(UText *ut) {
+ // Most of the work of close is done by the generic UText framework close.
+ // All that needs to be done here is delete the Replaceable if the UText
+ // owns it. This occurs if the UText was created by cloning.
+ if (ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT)) {
+ Replaceable *rep = (Replaceable *)ut->context;
+ delete rep;
+ ut->context = NULL;
+ }
+}
+
+
+static int64_t U_CALLCONV
+repTextLength(UText *ut) {
+ const Replaceable *replSrc = (const Replaceable *)ut->context;
+ int32_t len = replSrc->length();
+ return len;
+}
+
+
+static UBool U_CALLCONV
+repTextAccess(UText *ut, int64_t index, UBool forward) {
+ const Replaceable *rep=(const Replaceable *)ut->context;
+ int32_t length=rep->length(); // Full length of the input text (bigger than a chunk)
+
+ // clip the requested index to the limits of the text.
+ int32_t index32 = pinIndex(index, length);
+ U_ASSERT(index<=INT32_MAX);
+
+
+ /*
+ * Compute start/limit boundaries around index, for a segment of text
+ * to be extracted.
+ * To allow for the possibility that our user gave an index to the trailing
+ * half of a surrogate pair, we must request one extra preceding UChar when
+ * going in the forward direction. This will ensure that the buffer has the
+ * entire code point at the specified index.
+ */
+ if(forward) {
+
+ if (index32>=ut->chunkNativeStart && index32<ut->chunkNativeLimit) {
+ // Buffer already contains the requested position.
+ ut->chunkOffset = (int32_t)(index - ut->chunkNativeStart);
+ return TRUE;
+ }
+ if (index32>=length && ut->chunkNativeLimit==length) {
+ // Request for end of string, and buffer already extends up to it.
+ // Can't get the data, but don't change the buffer.
+ ut->chunkOffset = length - (int32_t)ut->chunkNativeStart;
+ return FALSE;
+ }
+
+ ut->chunkNativeLimit = index + REP_TEXT_CHUNK_SIZE - 1;
+ // Going forward, so we want to have the buffer with stuff at and beyond
+ // the requested index. The -1 gets us one code point before the
+ // requested index also, to handle the case of the index being on
+ // a trail surrogate of a surrogate pair.
+ if(ut->chunkNativeLimit > length) {
+ ut->chunkNativeLimit = length;
+ }
+ // unless buffer ran off end, start is index-1.
+ ut->chunkNativeStart = ut->chunkNativeLimit - REP_TEXT_CHUNK_SIZE;
+ if(ut->chunkNativeStart < 0) {
+ ut->chunkNativeStart = 0;
+ }
+ } else {
+ // Reverse iteration. Fill buffer with data preceding the requested index.
+ if (index32>ut->chunkNativeStart && index32<=ut->chunkNativeLimit) {
+ // Requested position already in buffer.
+ ut->chunkOffset = index32 - (int32_t)ut->chunkNativeStart;
+ return TRUE;
+ }
+ if (index32==0 && ut->chunkNativeStart==0) {
+ // Request for start, buffer already begins at start.
+ // No data, but keep the buffer as is.
+ ut->chunkOffset = 0;
+ return FALSE;
+ }
+
+ // Figure out the bounds of the chunk to extract for reverse iteration.
+ // Need to worry about chunk not splitting surrogate pairs, and while still
+ // containing the data we need.
+ // Fix by requesting a chunk that includes an extra UChar at the end.
+ // If this turns out to be a lead surrogate, we can lop it off and still have
+ // the data we wanted.
+ ut->chunkNativeStart = index32 + 1 - REP_TEXT_CHUNK_SIZE;
+ if (ut->chunkNativeStart < 0) {
+ ut->chunkNativeStart = 0;
+ }
+
+ ut->chunkNativeLimit = index32 + 1;
+ if (ut->chunkNativeLimit > length) {
+ ut->chunkNativeLimit = length;
+ }
+ }
+
+ // Extract the new chunk of text from the Replaceable source.
+ ReplExtra *ex = (ReplExtra *)ut->pExtra;
+ // UnicodeString with its buffer a writable alias to the chunk buffer
+ UnicodeString buffer(ex->s, 0 /*buffer length*/, REP_TEXT_CHUNK_SIZE /*buffer capacity*/);
+ rep->extractBetween((int32_t)ut->chunkNativeStart, (int32_t)ut->chunkNativeLimit, buffer);
+
+ ut->chunkContents = ex->s;
+ ut->chunkLength = (int32_t)(ut->chunkNativeLimit - ut->chunkNativeStart);
+ ut->chunkOffset = (int32_t)(index32 - ut->chunkNativeStart);
+
+ // Surrogate pairs from the input text must not span chunk boundaries.
+ // If end of chunk could be the start of a surrogate, trim it off.
+ if (ut->chunkNativeLimit < length &&
+ U16_IS_LEAD(ex->s[ut->chunkLength-1])) {
+ ut->chunkLength--;
+ ut->chunkNativeLimit--;
+ if (ut->chunkOffset > ut->chunkLength) {
+ ut->chunkOffset = ut->chunkLength;
+ }
+ }
+
+ // if the first UChar in the chunk could be the trailing half of a surrogate pair,
+ // trim it off.
+ if(ut->chunkNativeStart>0 && U16_IS_TRAIL(ex->s[0])) {
+ ++(ut->chunkContents);
+ ++(ut->chunkNativeStart);
+ --(ut->chunkLength);
+ --(ut->chunkOffset);
+ }
+
+ // adjust the index/chunkOffset to a code point boundary
+ U16_SET_CP_START(ut->chunkContents, 0, ut->chunkOffset);
+
+ // Use fast indexing for get/setNativeIndex()
+ ut->nativeIndexingLimit = ut->chunkLength;
+
+ return TRUE;
+}
+
+
+
+static int32_t U_CALLCONV
+repTextExtract(UText *ut,
+ int64_t start, int64_t limit,
+ UChar *dest, int32_t destCapacity,
+ UErrorCode *status) {
+ const Replaceable *rep=(const Replaceable *)ut->context;
+ int32_t length=rep->length();
+
+ if(U_FAILURE(*status)) {
+ return 0;
+ }
+ if(destCapacity<0 || (dest==NULL && destCapacity>0)) {
+ *status=U_ILLEGAL_ARGUMENT_ERROR;
+ }
+ if(start>limit) {
+ *status=U_INDEX_OUTOFBOUNDS_ERROR;
+ return 0;
+ }
+
+ int32_t start32 = pinIndex(start, length);
+ int32_t limit32 = pinIndex(limit, length);
+
+ // adjust start, limit if they point to trail half of surrogates
+ if (start32<length && U16_IS_TRAIL(rep->charAt(start32)) &&
+ U_IS_SUPPLEMENTARY(rep->char32At(start32))){
+ start32--;
+ }
+ if (limit32<length && U16_IS_TRAIL(rep->charAt(limit32)) &&
+ U_IS_SUPPLEMENTARY(rep->char32At(limit32))){
+ limit32--;
+ }
+
+ length=limit32-start32;
+ if(length>destCapacity) {
+ limit32 = start32 + destCapacity;
+ }
+ UnicodeString buffer(dest, 0, destCapacity); // writable alias
+ rep->extractBetween(start32, limit32, buffer);
+ repTextAccess(ut, limit32, TRUE);
+
+ return u_terminateUChars(dest, destCapacity, length, status);
+}
+
+static int32_t U_CALLCONV
+repTextReplace(UText *ut,
+ int64_t start, int64_t limit,
+ const UChar *src, int32_t length,
+ UErrorCode *status) {
+ Replaceable *rep=(Replaceable *)ut->context;
+ int32_t oldLength;
+
+ if(U_FAILURE(*status)) {
+ return 0;
+ }
+ if(src==NULL && length!=0) {
+ *status=U_ILLEGAL_ARGUMENT_ERROR;
+ return 0;
+ }
+ oldLength=rep->length(); // will subtract from new length
+ if(start>limit ) {
+ *status=U_INDEX_OUTOFBOUNDS_ERROR;
+ return 0;
+ }
+
+ int32_t start32 = pinIndex(start, oldLength);
+ int32_t limit32 = pinIndex(limit, oldLength);
+
+ // Snap start & limit to code point boundaries.
+ if (start32<oldLength && U16_IS_TRAIL(rep->charAt(start32)) &&
+ start32>0 && U16_IS_LEAD(rep->charAt(start32-1)))
+ {
+ start32--;
+ }
+ if (limit32<oldLength && U16_IS_LEAD(rep->charAt(limit32-1)) &&
+ U16_IS_TRAIL(rep->charAt(limit32)))
+ {
+ limit32++;
+ }
+
+ // Do the actual replace operation using methods of the Replaceable class
+ UnicodeString replStr((UBool)(length<0), src, length); // read-only alias
+ rep->handleReplaceBetween(start32, limit32, replStr);
+ int32_t newLength = rep->length();
+ int32_t lengthDelta = newLength - oldLength;
+
+ // Is the UText chunk buffer OK?
+ if (ut->chunkNativeLimit > start32) {
+ // this replace operation may have impacted the current chunk.
+ // invalidate it, which will force a reload on the next access.
+ invalidateChunk(ut);
+ }
+
+ // set the iteration position to the end of the newly inserted replacement text.
+ int32_t newIndexPos = limit32 + lengthDelta;
+ repTextAccess(ut, newIndexPos, TRUE);
+
+ return lengthDelta;
+}
+
+
+static void U_CALLCONV
+repTextCopy(UText *ut,
+ int64_t start, int64_t limit,
+ int64_t destIndex,
+ UBool move,
+ UErrorCode *status)
+{
+ Replaceable *rep=(Replaceable *)ut->context;
+ int32_t length=rep->length();
+
+ if(U_FAILURE(*status)) {
+ return;
+ }
+ if (start>limit || (start<destIndex && destIndex<limit))
+ {
+ *status=U_INDEX_OUTOFBOUNDS_ERROR;
+ return;
+ }
+
+ int32_t start32 = pinIndex(start, length);
+ int32_t limit32 = pinIndex(limit, length);
+ int32_t destIndex32 = pinIndex(destIndex, length);
+
+ // TODO: snap input parameters to code point boundaries.
+
+ if(move) {
+ // move: copy to destIndex, then replace original with nothing
+ int32_t segLength=limit32-start32;
+ rep->copy(start32, limit32, destIndex32);
+ if(destIndex32<start32) {
+ start32+=segLength;
+ limit32+=segLength;
+ }
+ rep->handleReplaceBetween(start32, limit32, UnicodeString());
+ } else {
+ // copy
+ rep->copy(start32, limit32, destIndex32);
+ }
+
+ // If the change to the text touched the region in the chunk buffer,
+ // invalidate the buffer.
+ int32_t firstAffectedIndex = destIndex32;
+ if (move && start32<firstAffectedIndex) {
+ firstAffectedIndex = start32;
+ }
+ if (firstAffectedIndex < ut->chunkNativeLimit) {
+ // changes may have affected range covered by the chunk
+ invalidateChunk(ut);
+ }
+
+ // Put iteration position at the newly inserted (moved) block,
+ int32_t nativeIterIndex = destIndex32 + limit32 - start32;
+ if (move && destIndex32>start32) {
+ // moved a block of text towards the end of the string.
+ nativeIterIndex = destIndex32;
+ }
+
+ // Set position, reload chunk if needed.
+ repTextAccess(ut, nativeIterIndex, TRUE);
+}
+
+static const struct UTextFuncs repFuncs =
+{
+ sizeof(UTextFuncs),
+ 0, 0, 0, // Reserved alignment padding
+ repTextClone,
+ repTextLength,
+ repTextAccess,
+ repTextExtract,
+ repTextReplace,
+ repTextCopy,
+ NULL, // MapOffsetToNative,
+ NULL, // MapIndexToUTF16,
+ repTextClose,
+ NULL, // spare 1
+ NULL, // spare 2
+ NULL // spare 3
+};
+
+
+U_CAPI UText * U_EXPORT2
+utext_openReplaceable(UText *ut, Replaceable *rep, UErrorCode *status)
+{
+ if(U_FAILURE(*status)) {
+ return NULL;
+ }
+ if(rep==NULL) {
+ *status=U_ILLEGAL_ARGUMENT_ERROR;
+ return NULL;
+ }
+ ut = utext_setup(ut, sizeof(ReplExtra), status);
+
+ ut->providerProperties = I32_FLAG(UTEXT_PROVIDER_WRITABLE);
+ if(rep->hasMetaData()) {
+ ut->providerProperties |=I32_FLAG(UTEXT_PROVIDER_HAS_META_DATA);
+ }
+
+ ut->pFuncs = &repFuncs;
+ ut->context = rep;
+ return ut;
+}
+
+U_CDECL_END
+
+
+
+
+
+
+
+
+//------------------------------------------------------------------------------
+//
+// UText implementation for UnicodeString (read/write) and
+// for const UnicodeString (read only)
+// (same implementation, only the flags are different)
+//
+// Use of UText data members:
+// context pointer to UnicodeString
+// p pointer to UnicodeString IF this UText owns the string
+// and it must be deleted on close(). NULL otherwise.
+//
+//------------------------------------------------------------------------------
+
+U_CDECL_BEGIN
+
+
+static UText * U_CALLCONV
+unistrTextClone(UText *dest, const UText *src, UBool deep, UErrorCode *status) {
+ // First do a generic shallow clone. Does everything needed for the UText struct itself.
+ dest = shallowTextClone(dest, src, status);
+
+ // For deep clones, make a copy of the UnicodeSring.
+ // The copied UnicodeString storage is owned by the newly created UText clone.
+ // A non-NULL pointer in UText.p is the signal to the close() function to delete
+ // the UText.
+ //
+ if (deep && U_SUCCESS(*status)) {
+ const UnicodeString *srcString = (const UnicodeString *)src->context;
+ dest->context = new UnicodeString(*srcString);
+ dest->providerProperties |= I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT);
+
+ // with deep clone, the copy is writable, even when the source is not.
+ dest->providerProperties |= I32_FLAG(UTEXT_PROVIDER_WRITABLE);
+ }
+ return dest;
+}
+
+static void U_CALLCONV
+unistrTextClose(UText *ut) {
+ // Most of the work of close is done by the generic UText framework close.
+ // All that needs to be done here is delete the UnicodeString if the UText
+ // owns it. This occurs if the UText was created by cloning.
+ if (ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT)) {
+ UnicodeString *str = (UnicodeString *)ut->context;
+ delete str;
+ ut->context = NULL;
+ }
+}
+
+
+static int64_t U_CALLCONV
+unistrTextLength(UText *t) {
+ return ((const UnicodeString *)t->context)->length();
+}
+
+
+static UBool U_CALLCONV
+unistrTextAccess(UText *ut, int64_t index, UBool forward) {
+ int32_t length = ut->chunkLength;
+ ut->chunkOffset = pinIndex(index, length);
+
+ // Check whether request is at the start or end
+ UBool retVal = (forward && index<length) || (!forward && index>0);
+ return retVal;
+}
+
+
+
+static int32_t U_CALLCONV
+unistrTextExtract(UText *t,
+ int64_t start, int64_t limit,
+ UChar *dest, int32_t destCapacity,
+ UErrorCode *pErrorCode) {
+ const UnicodeString *us=(const UnicodeString *)t->context;
+ int32_t length=us->length();
+
+ if(U_FAILURE(*pErrorCode)) {
+ return 0;
+ }
+ if(destCapacity<0 || (dest==NULL && destCapacity>0)) {
+ *pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
+ }
+ if(start<0 || start>limit) {
+ *pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
+ return 0;
+ }
+
+ int32_t start32 = start<length ? us->getChar32Start((int32_t)start) : length;
+ int32_t limit32 = limit<length ? us->getChar32Start((int32_t)limit) : length;
+
+ length=limit32-start32;
+ if (destCapacity>0 && dest!=NULL) {
+ int32_t trimmedLength = length;
+ if(trimmedLength>destCapacity) {
+ trimmedLength=destCapacity;
+ }
+ us->extract(start32, trimmedLength, dest);
+ t->chunkOffset = start32+trimmedLength;
+ } else {
+ t->chunkOffset = start32;
+ }
+ u_terminateUChars(dest, destCapacity, length, pErrorCode);
+ return length;
+}
+
+static int32_t U_CALLCONV
+unistrTextReplace(UText *ut,
+ int64_t start, int64_t limit,
+ const UChar *src, int32_t length,
+ UErrorCode *pErrorCode) {
+ UnicodeString *us=(UnicodeString *)ut->context;
+ int32_t oldLength;
+
+ if(U_FAILURE(*pErrorCode)) {
+ return 0;
+ }
+ if(src==NULL && length!=0) {
+ *pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
+ }
+ if(start>limit) {
+ *pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
+ return 0;
+ }
+ oldLength=us->length();
+ int32_t start32 = pinIndex(start, oldLength);
+ int32_t limit32 = pinIndex(limit, oldLength);
+ if (start32 < oldLength) {
+ start32 = us->getChar32Start(start32);
+ }
+ if (limit32 < oldLength) {
+ limit32 = us->getChar32Start(limit32);
+ }
+
+ // replace
+ us->replace(start32, limit32-start32, src, length);
+ int32_t newLength = us->length();
+
+ // Update the chunk description.
+ ut->chunkContents = us->getBuffer();
+ ut->chunkLength = newLength;
+ ut->chunkNativeLimit = newLength;
+ ut->nativeIndexingLimit = newLength;
+
+ // Set iteration position to the point just following the newly inserted text.
+ int32_t lengthDelta = newLength - oldLength;
+ ut->chunkOffset = limit32 + lengthDelta;
+
+ return lengthDelta;
+}
+
+static void U_CALLCONV
+unistrTextCopy(UText *ut,
+ int64_t start, int64_t limit,
+ int64_t destIndex,
+ UBool move,
+ UErrorCode *pErrorCode) {
+ UnicodeString *us=(UnicodeString *)ut->context;
+ int32_t length=us->length();
+
+ if(U_FAILURE(*pErrorCode)) {
+ return;
+ }
+ int32_t start32 = pinIndex(start, length);
+ int32_t limit32 = pinIndex(limit, length);
+ int32_t destIndex32 = pinIndex(destIndex, length);
+
+ if( start32>limit32 || (start32<destIndex32 && destIndex32<limit32)) {
+ *pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
+ return;
+ }
+
+ if(move) {
+ // move: copy to destIndex, then replace original with nothing
+ int32_t segLength=limit32-start32;
+ us->copy(start32, limit32, destIndex32);
+ if(destIndex32<start32) {
+ start32+=segLength;
+ }
+ us->replace(start32, segLength, NULL, 0);
+ } else {
+ // copy
+ us->copy(start32, limit32, destIndex32);
+ }
+
+ // update chunk description, set iteration position.
+ ut->chunkContents = us->getBuffer();
+ if (move==FALSE) {
+ // copy operation, string length grows
+ ut->chunkLength += limit32-start32;
+ ut->chunkNativeLimit = ut->chunkLength;
+ ut->nativeIndexingLimit = ut->chunkLength;
+ }
+
+ // Iteration position to end of the newly inserted text.
+ ut->chunkOffset = destIndex32+limit32-start32;
+ if (move && destIndex32>start32) {
+ ut->chunkOffset = destIndex32;
+ }
+
+}
+
+static const struct UTextFuncs unistrFuncs =
+{
+ sizeof(UTextFuncs),
+ 0, 0, 0, // Reserved alignment padding
+ unistrTextClone,
+ unistrTextLength,
+ unistrTextAccess,
+ unistrTextExtract,
+ unistrTextReplace,
+ unistrTextCopy,
+ NULL, // MapOffsetToNative,
+ NULL, // MapIndexToUTF16,
+ unistrTextClose,
+ NULL, // spare 1
+ NULL, // spare 2
+ NULL // spare 3
+};
+
+
+
+U_CDECL_END
+
+
+U_CAPI UText * U_EXPORT2
+utext_openUnicodeString(UText *ut, UnicodeString *s, UErrorCode *status) {
+ ut = utext_openConstUnicodeString(ut, s, status);
+ if (U_SUCCESS(*status)) {
+ ut->providerProperties |= I32_FLAG(UTEXT_PROVIDER_WRITABLE);
+ }
+ return ut;
+}
+
+
+
+U_CAPI UText * U_EXPORT2
+utext_openConstUnicodeString(UText *ut, const UnicodeString *s, UErrorCode *status) {
+ if (U_SUCCESS(*status) && s->isBogus()) {
+ // The UnicodeString is bogus, but we still need to detach the UText
+ // from whatever it was hooked to before, if anything.
+ utext_openUChars(ut, NULL, 0, status);
+ *status = U_ILLEGAL_ARGUMENT_ERROR;
+ return ut;
+ }
+ ut = utext_setup(ut, 0, status);
+ // note: use the standard (writable) function table for UnicodeString.
+ // The flag settings disable writing, so having the functions in
+ // the table is harmless.
+ if (U_SUCCESS(*status)) {
+ ut->pFuncs = &unistrFuncs;
+ ut->context = s;
+ ut->providerProperties = I32_FLAG(UTEXT_PROVIDER_STABLE_CHUNKS);
+ ut->chunkContents = s->getBuffer();
+ ut->chunkLength = s->length();
+ ut->chunkNativeStart = 0;
+ ut->chunkNativeLimit = ut->chunkLength;
+ ut->nativeIndexingLimit = ut->chunkLength;
+ }
+ return ut;
+}
+
+//------------------------------------------------------------------------------
+//
+// UText implementation for const UChar * strings
+//
+// Use of UText data members:
+// context pointer to UnicodeString
+// a length. -1 if not yet known.
+//
+// TODO: support 64 bit lengths.
+//
+//------------------------------------------------------------------------------
+
+U_CDECL_BEGIN
+
+
+static UText * U_CALLCONV
+ucstrTextClone(UText *dest, const UText * src, UBool deep, UErrorCode * status) {
+ // First do a generic shallow clone.
+ dest = shallowTextClone(dest, src, status);
+
+ // For deep clones, make a copy of the string.
+ // The copied storage is owned by the newly created clone.
+ // A non-NULL pointer in UText.p is the signal to the close() function to delete
+ // it.
+ //
+ if (deep && U_SUCCESS(*status)) {
+ U_ASSERT(utext_nativeLength(dest) < INT32_MAX);
+ int32_t len = (int32_t)utext_nativeLength(dest);
+
+ // The cloned string IS going to be NUL terminated, whether or not the original was.
+ const UChar *srcStr = (const UChar *)src->context;
+ UChar *copyStr = (UChar *)uprv_malloc((len+1) * sizeof(UChar));
+ if (copyStr == NULL) {
+ *status = U_MEMORY_ALLOCATION_ERROR;
+ } else {
+ int64_t i;
+ for (i=0; i<len; i++) {
+ copyStr[i] = srcStr[i];
+ }
+ copyStr[len] = 0;
+ dest->context = copyStr;
+ dest->providerProperties |= I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT);
+ }
+ }
+ return dest;
+}
+
+
+static void U_CALLCONV
+ucstrTextClose(UText *ut) {
+ // Most of the work of close is done by the generic UText framework close.
+ // All that needs to be done here is delete the string if the UText
+ // owns it. This occurs if the UText was created by cloning.
+ if (ut->providerProperties & I32_FLAG(UTEXT_PROVIDER_OWNS_TEXT)) {
+ UChar *s = (UChar *)ut->context;
+ uprv_free(s);
+ ut->context = NULL;
+ }
+}
+
+
+
+static int64_t U_CALLCONV
+ucstrTextLength(UText *ut) {
+ if (ut->a < 0) {
+ // null terminated, we don't yet know the length. Scan for it.
+ // Access is not convenient for doing this
+ // because the current interation postion can't be changed.
+ const UChar *str = (const UChar *)ut->context;
+ for (;;) {
+ if (str[ut->chunkNativeLimit] == 0) {
+ break;
+ }
+ ut->chunkNativeLimit++;
+ }
+ ut->a = ut->chunkNativeLimit;
+ ut->chunkLength = (int32_t)ut->chunkNativeLimit;
+ ut->nativeIndexingLimit = ut->chunkLength;
+ ut->providerProperties &= ~I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ }
+ return ut->a;
+}
+
+
+static UBool U_CALLCONV
+ucstrTextAccess(UText *ut, int64_t index, UBool forward) {
+ const UChar *str = (const UChar *)ut->context;
+
+ // pin the requested index to the bounds of the string,
+ // and set current iteration position.
+ if (index<0) {
+ index = 0;
+ } else if (index < ut->chunkNativeLimit) {
+ // The request data is within the chunk as it is known so far.
+ // Put index on a code point boundary.
+ U16_SET_CP_START(str, 0, index);
+ } else if (ut->a >= 0) {
+ // We know the length of this string, and the user is requesting something
+ // at or beyond the length. Pin the requested index to the length.
+ index = ut->a;
+ } else {
+ // Null terminated string, length not yet known, and the requested index
+ // is beyond where we have scanned so far.
+ // Scan to 32 UChars beyond the requested index. The strategy here is
+ // to avoid fully scanning a long string when the caller only wants to
+ // see a few characters at its beginning.
+ int32_t scanLimit = (int32_t)index + 32;
+ if ((index + 32)>INT32_MAX || (index + 32)<0 ) { // note: int64 expression
+ scanLimit = INT32_MAX;
+ }
+
+ int32_t chunkLimit = (int32_t)ut->chunkNativeLimit;
+ for (; chunkLimit<scanLimit; chunkLimit++) {
+ if (str[chunkLimit] == 0) {
+ // We found the end of the string. Remember it, pin the requested index to it,
+ // and bail out of here.
+ ut->a = chunkLimit;
+ ut->chunkLength = chunkLimit;
+ ut->nativeIndexingLimit = chunkLimit;
+ if (index >= chunkLimit) {
+ index = chunkLimit;
+ } else {
+ U16_SET_CP_START(str, 0, index);
+ }
+
+ ut->chunkNativeLimit = chunkLimit;
+ ut->providerProperties &= ~I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ goto breakout;
+ }
+ }
+ // We scanned through the next batch of UChars without finding the end.
+ U16_SET_CP_START(str, 0, index);
+ if (chunkLimit == INT32_MAX) {
+ // Scanned to the limit of a 32 bit length.
+ // Forceably trim the overlength string back so length fits in int32
+ // TODO: add support for 64 bit strings.
+ ut->a = chunkLimit;
+ ut->chunkLength = chunkLimit;
+ ut->nativeIndexingLimit = chunkLimit;
+ if (index > chunkLimit) {
+ index = chunkLimit;
+ }
+ ut->chunkNativeLimit = chunkLimit;
+ ut->providerProperties &= ~I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ } else {
+ // The endpoint of a chunk must not be left in the middle of a surrogate pair.
+ // If the current end is on a lead surrogate, back the end up by one.
+ // It doesn't matter if the end char happens to be an unpaired surrogate,
+ // and it's simpler not to worry about it.
+ if (U16_IS_LEAD(str[chunkLimit-1])) {
+ --chunkLimit;
+ }
+ // Null-terminated chunk with end still unknown.
+ // Update the chunk length to reflect what has been scanned thus far.
+ // That the full length is still unknown is (still) flagged by
+ // ut->a being < 0.
+ ut->chunkNativeLimit = chunkLimit;
+ ut->nativeIndexingLimit = chunkLimit;
+ ut->chunkLength = chunkLimit;
+ }
+
+ }
+breakout:
+ U_ASSERT(index<=INT32_MAX);
+ ut->chunkOffset = (int32_t)index;
+
+ // Check whether request is at the start or end
+ UBool retVal = (forward && index<ut->chunkNativeLimit) || (!forward && index>0);
+ return retVal;
+}
+
+
+
+static int32_t U_CALLCONV
+ucstrTextExtract(UText *ut,
+ int64_t start, int64_t limit,
+ UChar *dest, int32_t destCapacity,
+ UErrorCode *pErrorCode)
+{
+ if(U_FAILURE(*pErrorCode)) {
+ return 0;
+ }
+ if(destCapacity<0 || (dest==NULL && destCapacity>0) || start>limit) {
+ *pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
+ return 0;
+ }
+
+ //const UChar *s=(const UChar *)ut->context;
+ int32_t si, di;
+
+ int32_t start32;
+ int32_t limit32;
+
+ // Access the start. Does two things we need:
+ // Pins 'start' to the length of the string, if it came in out-of-bounds.
+ // Snaps 'start' to the beginning of a code point.
+ ucstrTextAccess(ut, start, TRUE);
+ const UChar *s=ut->chunkContents;
+ start32 = ut->chunkOffset;
+
+ int32_t strLength=(int32_t)ut->a;
+ if (strLength >= 0) {
+ limit32 = pinIndex(limit, strLength);
+ } else {
+ limit32 = pinIndex(limit, INT32_MAX);
+ }
+ di = 0;
+ for (si=start32; si<limit32; si++) {
+ if (strLength<0 && s[si]==0) {
+ // Just hit the end of a null-terminated string.
+ ut->a = si; // set string length for this UText
+ ut->chunkNativeLimit = si;
+ ut->chunkLength = si;
+ ut->nativeIndexingLimit = si;
+ strLength = si;
+ break;
+ }
+ U_ASSERT(di>=0); /* to ensure di never exceeds INT32_MAX, which must not happen logically */
+ if (di<destCapacity) {
+ // only store if there is space.
+ dest[di] = s[si];
+ } else {
+ if (strLength>=0) {
+ // We have filled the destination buffer, and the string length is known.
+ // Cut the loop short. There is no need to scan string termination.
+ di = limit32 - start32;
+ si = limit32;
+ break;
+ }
+ }
+ di++;
+ }
+
+ // If the limit index points to a lead surrogate of a pair,
+ // add the corresponding trail surrogate to the destination.
+ if (si>0 && U16_IS_LEAD(s[si-1]) &&
+ ((si<strLength || strLength<0) && U16_IS_TRAIL(s[si])))
+ {
+ if (di<destCapacity) {
+ // store only if there is space in the output buffer.
+ dest[di++] = s[si++];
+ }
+ }
+
+ // Put iteration position at the point just following the extracted text
+ ut->chunkOffset = uprv_min(strLength, start32 + destCapacity);
+
+ // Add a terminating NUL if space in the buffer permits,
+ // and set the error status as required.
+ u_terminateUChars(dest, destCapacity, di, pErrorCode);
+ return di;
+}
+
+static const struct UTextFuncs ucstrFuncs =
+{
+ sizeof(UTextFuncs),
+ 0, 0, 0, // Reserved alignment padding
+ ucstrTextClone,
+ ucstrTextLength,
+ ucstrTextAccess,
+ ucstrTextExtract,
+ NULL, // Replace
+ NULL, // Copy
+ NULL, // MapOffsetToNative,
+ NULL, // MapIndexToUTF16,
+ ucstrTextClose,
+ NULL, // spare 1
+ NULL, // spare 2
+ NULL, // spare 3
+};
+
+U_CDECL_END
+
+static const UChar gEmptyUString[] = {0};
+
+U_CAPI UText * U_EXPORT2
+utext_openUChars(UText *ut, const UChar *s, int64_t length, UErrorCode *status) {
+ if (U_FAILURE(*status)) {
+ return NULL;
+ }
+ if(s==NULL && length==0) {
+ s = gEmptyUString;
+ }
+ if (s==NULL || length < -1 || length>INT32_MAX) {
+ *status = U_ILLEGAL_ARGUMENT_ERROR;
+ return NULL;
+ }
+ ut = utext_setup(ut, 0, status);
+ if (U_SUCCESS(*status)) {
+ ut->pFuncs = &ucstrFuncs;
+ ut->context = s;
+ ut->providerProperties = I32_FLAG(UTEXT_PROVIDER_STABLE_CHUNKS);
+ if (length==-1) {
+ ut->providerProperties |= I32_FLAG(UTEXT_PROVIDER_LENGTH_IS_EXPENSIVE);
+ }
+ ut->a = length;
+ ut->chunkContents = s;
+ ut->chunkNativeStart = 0;
+ ut->chunkNativeLimit = length>=0? length : 0;
+ ut->chunkLength = (int32_t)ut->chunkNativeLimit;
+ ut->chunkOffset = 0;
+ ut->nativeIndexingLimit = ut->chunkLength;
+ }
+ return ut;
+}
+
+
+//------------------------------------------------------------------------------
+//
+// UText implementation for text from ICU CharacterIterators
+//
+// Use of UText data members:
+// context pointer to the CharacterIterator
+// a length of the full text.
+// p pointer to buffer 1
+// b start index of local buffer 1 contents
+// q pointer to buffer 2
+// c start index of local buffer 2 contents
+// r pointer to the character iterator if the UText owns it.
+// Null otherwise.
+//
+//------------------------------------------------------------------------------
+#define CIBufSize 16
+
+U_CDECL_BEGIN
+static void U_CALLCONV
+charIterTextClose(UText *ut) {
+ // Most of the work of close is done by the generic UText framework close.
+ // All that needs to be done here is delete the CharacterIterator if the UText
+ // owns it. This occurs if the UText was created by cloning.
+ CharacterIterator *ci = (CharacterIterator *)ut->r;
+ delete ci;
+ ut->r = NULL;
+}
+
+static int64_t U_CALLCONV
+charIterTextLength(UText *ut) {
+ return (int32_t)ut->a;
+}
+
+static UBool U_CALLCONV
+charIterTextAccess(UText *ut, int64_t index, UBool forward) {
+ CharacterIterator *ci = (CharacterIterator *)ut->context;
+
+ int32_t clippedIndex = (int32_t)index;
+ if (clippedIndex<0) {
+ clippedIndex=0;
+ } else if (clippedIndex>=ut->a) {
+ clippedIndex=(int32_t)ut->a;
+ }
+ int32_t neededIndex = clippedIndex;
+ if (!forward && neededIndex>0) {
+ // reverse iteration, want the position just before what was asked for.
+ neededIndex--;
+ } else if (forward && neededIndex==ut->a && neededIndex>0) {
+ // Forward iteration, don't ask for something past the end of the text.
+ neededIndex--;
+ }
+
+ // Find the native index of the start of the buffer containing what we want.
+ neededIndex -= neededIndex % CIBufSize;
+
+ UChar *buf = NULL;
+ UBool needChunkSetup = TRUE;
+ int i;
+ if (ut->chunkNativeStart == neededIndex) {
+ // The buffer we want is already the current chunk.
+ needChunkSetup = FALSE;
+ } else if (ut->b == neededIndex) {
+ // The first buffer (buffer p) has what we need.
+ buf = (UChar *)ut->p;
+ } else if (ut->c == neededIndex) {
+ // The second buffer (buffer q) has what we need.
+ buf = (UChar *)ut->q;
+ } else {
+ // Neither buffer already has what we need.
+ // Load new data from the character iterator.
+ // Use the buf that is not the current buffer.
+ buf = (UChar *)ut->p;
+ if (ut->p == ut->chunkContents) {
+ buf = (UChar *)ut->q;
+ }
+ ci->setIndex(neededIndex);
+ for (i=0; i<CIBufSize; i++) {
+ buf[i] = ci->nextPostInc();
+ if (i+neededIndex > ut->a) {
+ break;
+ }
+ }
+ }
+
+ // We have a buffer with the data we need.
+ // Set it up as the current chunk, if it wasn't already.
+ if (needChunkSetup) {
+ ut->chunkContents = buf;
+ ut->chunkLength = CIBufSize;
+ ut->chunkNativeStart = neededIndex;
+ ut->chunkNativeLimit = neededIndex + CIBufSize;
+ if (ut->chunkNativeLimit > ut->a) {
+ ut->chunkNativeLimit = ut->a;
+ ut->chunkLength = (int32_t)(ut->chunkNativeLimit)-(int32_t)(ut->chunkNativeStart);
+ }
+ ut->nativeIndexingLimit = ut->chunkLength;
+ U_ASSERT(ut->chunkOffset>=0 && ut->chunkOffset<=CIBufSize);
+ }
+ ut->chunkOffset = clippedIndex - (int32_t)ut->chunkNativeStart;
+ UBool success = (forward? ut->chunkOffset<ut->chunkLength : ut->chunkOffset>0);
+ return success;
+}
+
+static UText * U_CALLCONV
+charIterTextClone(UText *dest, const UText *src, UBool deep, UErrorCode * status) {
+ if (U_FAILURE(*status)) {
+ return NULL;
+ }
+
+ if (deep) {
+ // There is no CharacterIterator API for cloning the underlying text storage.
+ *status = U_UNSUPPORTED_ERROR;
+ return NULL;
+ } else {
+ CharacterIterator *srcCI =(CharacterIterator *)src->context;
+ srcCI = srcCI->clone();
+ dest = utext_openCharacterIterator(dest, srcCI, status);
+ // cast off const on getNativeIndex.
+ // For CharacterIterator based UTexts, this is safe, the operation is const.
+ int64_t ix = utext_getNativeIndex((UText *)src);
+ utext_setNativeIndex(dest, ix);
+ dest->r = srcCI; // flags that this UText owns the CharacterIterator
+ }
+ return dest;
+}
+
+static int32_t U_CALLCONV
+charIterTextExtract(UText *ut,
+ int64_t start, int64_t limit,
+ UChar *dest, int32_t destCapacity,
+ UErrorCode *status)
+{
+ if(U_FAILURE(*status)) {
+ return 0;
+ }
+ if(destCapacity<0 || (dest==NULL && destCapacity>0) || start>limit) {
+ *status=U_ILLEGAL_ARGUMENT_ERROR;
+ return 0;
+ }
+ int32_t length = (int32_t)ut->a;
+ int32_t start32 = pinIndex(start, length);
+ int32_t limit32 = pinIndex(limit, length);
+ int32_t desti = 0;
+ int32_t srci;
+ int32_t copyLimit;
+
+ CharacterIterator *ci = (CharacterIterator *)ut->context;
+ ci->setIndex32(start32); // Moves ix to lead of surrogate pair, if needed.
+ srci = ci->getIndex();
+ copyLimit = srci;
+ while (srci<limit32) {
+ UChar32 c = ci->next32PostInc();
+ int32_t len = U16_LENGTH(c);
+ U_ASSERT(desti+len>0); /* to ensure desti+len never exceeds MAX_INT32, which must not happen logically */
+ if (desti+len <= destCapacity) {
+ U16_APPEND_UNSAFE(dest, desti, c);
+ copyLimit = srci+len;
+ } else {
+ desti += len;
+ *status = U_BUFFER_OVERFLOW_ERROR;
+ }
+ srci += len;
+ }
+
+ charIterTextAccess(ut, copyLimit, TRUE);
+
+ u_terminateUChars(dest, destCapacity, desti, status);
+ return desti;
+}
+
+static const struct UTextFuncs charIterFuncs =
+{
+ sizeof(UTextFuncs),
+ 0, 0, 0, // Reserved alignment padding
+ charIterTextClone,
+ charIterTextLength,
+ charIterTextAccess,
+ charIterTextExtract,
+ NULL, // Replace
+ NULL, // Copy
+ NULL, // MapOffsetToNative,
+ NULL, // MapIndexToUTF16,
+ charIterTextClose,
+ NULL, // spare 1
+ NULL, // spare 2
+ NULL // spare 3
+};
+U_CDECL_END
+
+
+U_CAPI UText * U_EXPORT2
+utext_openCharacterIterator(UText *ut, CharacterIterator *ci, UErrorCode *status) {
+ if (U_FAILURE(*status)) {
+ return NULL;
+ }
+
+ if (ci->startIndex() > 0) {
+ // No support for CharacterIterators that do not start indexing from zero.
+ *status = U_UNSUPPORTED_ERROR;
+ return NULL;
+ }
+
+ // Extra space in UText for 2 buffers of CIBufSize UChars each.
+ int32_t extraSpace = 2 * CIBufSize * sizeof(UChar);
+ ut = utext_setup(ut, extraSpace, status);
+ if (U_SUCCESS(*status)) {
+ ut->pFuncs = &charIterFuncs;
+ ut->context = ci;
+ ut->providerProperties = 0;
+ ut->a = ci->endIndex(); // Length of text
+ ut->p = ut->pExtra; // First buffer
+ ut->b = -1; // Native index of first buffer contents
+ ut->q = (UChar*)ut->pExtra+CIBufSize; // Second buffer
+ ut->c = -1; // Native index of second buffer contents
+
+ // Initialize current chunk contents to be empty.
+ // First access will fault something in.
+ // Note: The initial nativeStart and chunkOffset must sum to zero
+ // so that getNativeIndex() will correctly compute to zero
+ // if no call to Access() has ever been made. They can't be both
+ // zero without Access() thinking that the chunk is valid.
+ ut->chunkContents = (UChar *)ut->p;
+ ut->chunkNativeStart = -1;
+ ut->chunkOffset = 1;
+ ut->chunkNativeLimit = 0;
+ ut->chunkLength = 0;
+ ut->nativeIndexingLimit = ut->chunkOffset; // enables native indexing
+ }
+ return ut;
+}
+
+
+
Property changes on: icu51/source/common/utext.cpp
___________________________________________________________________
Added: svn:eol-style
+ LF
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