/* */
/* */
/* */
-/* (C) 2001 Ullrich von Bassewitz */
-/* Wacholderweg 14 */
-/* D-70597 Stuttgart */
+/* (C) 2001-2004 Ullrich von Bassewitz */
+/* Römerstrasse 52 */
+/* D-70794 Filderstadt */
/* EMail: uz@cc65.org */
/* */
/* */
/* common */
#include "attrib.h"
#include "coll.h"
+#include "inline.h"
/* cc65 */
#include "codelab.h"
+#include "lineinfo.h"
#include "symentry.h"
Collection Entries; /* List of code entries */
Collection Labels; /* Labels for next insn */
CodeLabel* LabelHash [CS_LABEL_HASH_SIZE]; /* Label hash table */
- unsigned char ExitRegs; /* Register use on exit */
+ unsigned short ExitRegs; /* Register use on exit */
};
CodeSeg* NewCodeSeg (const char* SegName, SymEntry* Func);
/* Create a new code segment, initialize and return it */
-void AddCodeEntry (CodeSeg* S, const char* Format, va_list ap) attribute ((format(printf,2,0)));
+void CS_AddEntry (CodeSeg* S, struct CodeEntry* E);
+/* Add an entry to the given code segment */
+
+void CS_AddVLine (CodeSeg* S, LineInfo* LI, const char* Format, va_list ap) attribute ((format(printf,3,0)));
+/* Add a line to the given code segment */
+
+void CS_AddLine (CodeSeg* S, LineInfo* LI, const char* Format, ...) attribute ((format(printf,3,4)));
/* Add a line to the given code segment */
-void InsertCodeEntry (CodeSeg* S, struct CodeEntry* E, unsigned Index);
+#if defined(HAVE_INLINE)
+INLINE unsigned CS_GetEntryCount (const CodeSeg* S)
+/* Return the number of entries for the given code segment */
+{
+ return CollCount (&S->Entries);
+}
+#else
+# define CS_GetEntryCount(S) CollCount (&(S)->Entries)
+#endif
+
+void CS_InsertEntry (CodeSeg* S, struct CodeEntry* E, unsigned Index);
/* Insert the code entry at the index given. Following code entries will be
* moved to slots with higher indices.
*/
-void DelCodeEntry (CodeSeg* S, unsigned Index);
+void CS_DelEntry (CodeSeg* S, unsigned Index);
/* Delete an entry from the code segment. This includes moving any associated
* labels, removing references to labels and even removing the referenced labels
* if the reference count drops to zero.
+ * Note: Labels are moved forward if possible, that is, they are moved to the
+ * next insn (not the preceeding one).
+ */
+
+void CS_DelEntries (CodeSeg* S, unsigned Start, unsigned Count);
+/* Delete a range of code entries. This includes removing references to labels,
+ * labels attached to the entries and so on.
*/
-struct CodeEntry* GetCodeEntry (CodeSeg* S, unsigned Index);
+void CS_MoveEntries (CodeSeg* S, unsigned Start, unsigned Count, unsigned NewPos);
+/* Move a range of entries from one position to another. Start is the index
+ * of the first entry to move, Count is the number of entries and NewPos is
+ * the index of the target entry. The entry with the index Start will later
+ * have the index NewPos. All entries with indices NewPos and above are
+ * moved to higher indices. If the code block is moved to the end of the
+ * current code, and if pending labels exist, these labels will get attached
+ * to the first instruction of the moved block (the first one after the
+ * current code end)
+ */
+
+#if defined(HAVE_INLINE)
+INLINE void CS_MoveEntry (CodeSeg* S, unsigned OldPos, unsigned NewPos)
+/* Move an entry from one position to another. OldPos is the current position
+ * of the entry, NewPos is the new position of the entry.
+ */
+{
+ CollMove (&S->Entries, OldPos, NewPos);
+}
+#else
+# define CS_MoveEntry(S, OldPos, NewPos) CollMove (&(S)->Entries, OldPos, NewPos)
+#endif
+
+#if defined(HAVE_INLINE)
+INLINE struct CodeEntry* CS_GetEntry (CodeSeg* S, unsigned Index)
/* Get an entry from the given code segment */
+{
+ return CollAt (&S->Entries, Index);
+}
+#else
+# define CS_GetEntry(S, Index) ((struct CodeEntry*) CollAt(&(S)->Entries, (Index)))
+#endif
+
+struct CodeEntry* CS_GetPrevEntry (CodeSeg* S, unsigned Index);
+/* Get the code entry preceeding the one with the index Index. If there is no
+ * preceeding code entry, return NULL.
+ */
-struct CodeEntry* GetNextCodeEntry (CodeSeg* S, unsigned Index);
+struct CodeEntry* CS_GetNextEntry (CodeSeg* S, unsigned Index);
/* Get the code entry following the one with the index Index. If there is no
* following code entry, return NULL.
*/
-unsigned GetCodeEntryIndex (CodeSeg* S, struct CodeEntry* E);
+int CS_GetEntries (CodeSeg* S, struct CodeEntry** List,
+ unsigned Start, unsigned Count);
+/* Get Count code entries into List starting at index start. Return true if
+ * we got the lines, return false if not enough lines were available.
+ */
+
+unsigned CS_GetEntryIndex (CodeSeg* S, struct CodeEntry* E);
/* Return the index of a code entry */
-void AddCodeLabel (CodeSeg* S, const char* Name);
+int CS_RangeHasLabel (CodeSeg* S, unsigned Start, unsigned Count);
+/* Return true if any of the code entries in the given range has a label
+ * attached. If the code segment does not span the given range, check the
+ * possible span instead.
+ */
+
+#if defined(HAVE_INLINE)
+INLINE int CS_HavePendingLabel (const CodeSeg* S)
+/* Return true if there are open labels that will get attached to the next
+ * instruction that is added.
+ */
+{
+ return (CollCount (&S->Labels) > 0);
+}
+#else
+# define CS_HavePendingLabel(S) (CollCount (&(S)->Labels) > 0)
+#endif
+
+CodeLabel* CS_AddLabel (CodeSeg* S, const char* Name);
/* Add a code label for the next instruction to follow */
-CodeLabel* GenCodeLabel (CodeSeg* S, struct CodeEntry* E);
+CodeLabel* CS_GenLabel (CodeSeg* S, struct CodeEntry* E);
/* If the code entry E does already have a label, return it. Otherwise
* create a new label, attach it to E and return it.
*/
-void DelCodeLabel (CodeSeg* S, CodeLabel* L);
+void CS_DelLabel (CodeSeg* S, CodeLabel* L);
/* Remove references from this label and delete it. */
-void MergeCodeLabels (CodeSeg* S);
+void CS_MergeLabels (CodeSeg* S);
/* Merge code labels. That means: For each instruction, remove all labels but
* one and adjust references accordingly.
*/
-void MoveCodeLabels (CodeSeg* S, struct CodeEntry* Old, struct CodeEntry* New);
+void CS_MoveLabels (CodeSeg* S, struct CodeEntry* Old, struct CodeEntry* New);
/* Move all labels from Old to New. The routine will move the labels itself
* if New does not have any labels, and move references if there is at least
* a label for new. If references are moved, the old label is deleted
* afterwards.
*/
-void RemoveCodeLabelRef (CodeSeg* S, struct CodeEntry* E);
+void CS_RemoveLabelRef (CodeSeg* S, struct CodeEntry* E);
/* Remove the reference between E and the label it jumps to. The reference
* will be removed on both sides and E->JumpTo will be 0 after that. If
* the reference was the only one for the label, the label will get
* deleted.
*/
-void MoveCodeLabelRef (CodeSeg* S, struct CodeEntry* E, CodeLabel* L);
+void CS_MoveLabelRef (CodeSeg* S, struct CodeEntry* E, CodeLabel* L);
/* Change the reference of E to L instead of the current one. If this
* was the only reference to the old label, the old label will get
* deleted.
*/
-void AddCodeSegHint (CodeSeg* S, unsigned Hint);
-/* Add a hint for the preceeding instruction */
-
-void DelCodeSegAfter (CodeSeg* S, unsigned Last);
+void CS_DelCodeAfter (CodeSeg* S, unsigned Last);
/* Delete all entries including the given one */
-void OutputCodeSeg (const CodeSeg* S, FILE* F);
+void CS_ResetMarks (CodeSeg* S, unsigned First, unsigned Last);
+/* Remove all user marks from the entries in the given range */
+
+#if defined(HAVE_INLINE)
+INLINE void CS_ResetAllMarks (CodeSeg* S)
+/* Remove all user marks from the code segment */
+{
+ if (CS_GetEntryCount (S) > 0) {
+ CS_ResetMarks (S, 0, CS_GetEntryCount (S));
+ }
+}
+#else
+# define CS_ResetAllMarks(S) \
+ ((CS_GetEntryCount (S) > 0)? CS_ResetMarks (S, 0, CS_GetEntryCount (S)) : (void) 0)
+#endif
+
+int CS_IsBasicBlock (CodeSeg* S, unsigned First, unsigned Last);
+/* Check if the given code segment range is a basic block. That is, check if
+ * First is the only entrance and Last is the only exit. This means that no
+ * jump/branch inside the block may jump to an insn below First or after(!)
+ * Last, and that no insn may jump into this block from the outside.
+ */
+
+void CS_OutputPrologue (const CodeSeg* S, FILE* F);
+/* If the given code segment is a code segment for a function, output the
+ * assembler prologue into the file. That is: Output a comment header, switch
+ * to the correct segment and enter the local function scope. If the code
+ * segment is global, do nothing.
+ */
+
+void CS_OutputEpilogue (const CodeSeg* S, FILE* F);
+/* If the given code segment is a code segment for a function, output the
+ * assembler epilogue into the file. That is: Close the local function scope.
+ */
+
+void CS_Output (CodeSeg* S, FILE* F);
/* Output the code segment data to a file */
-unsigned GetCodeEntryCount (const CodeSeg* S);
-/* Return the number of entries for the given code segment */
+void CS_FreeRegInfo (CodeSeg* S);
+/* Free register infos for all instructions */
+
+void CS_GenRegInfo (CodeSeg* S);
+/* Generate register infos for all instructions */