; ; Ullrich von Bassewitz, 2002-11-22, 2004-05-14 ; ; size_t __fastcall__ fread (void* buf, size_t size, size_t count, FILE* file); ; /* Read from a file */ ; .export _fread .import _read .import pusha0, pushax .import incsp4, incsp6 .import ldaxysp, ldax0sp .import pushwysp .import tosumulax, tosudivax .importzp ptr1, sp .include "errno.inc" .include "_file.inc" .macpack generic ; ------------------------------------------------------------------------ ; Code .proc _fread ; We will place a pointer to the file descriptor into the register bank .import regbank: zp file = regbank ; Save two bytes from the register bank ldy file+0 sty save ldy file+1 sty save+1 ; Save the file pointer into the register bank sta file stx file+1 ; Check if the file is open ldy #_FILE::f_flags lda (file),y and #_FOPEN ; Is the file open? beq @L1 ; Branch if no ; Check if the stream is in an error state lda (file),y ; get file->f_flags again and #_FERROR beq @L2 ; File not open or in error state @L1: lda #EINVAL jsr ___seterrno ; Set __errno, return zero in A tax ; a/x = 0 jmp @L99 ; Bail out ; Remember if we have a pushed back character and reset the flag. @L2: tax ; X = 0 lda (file),y and #_FPUSHBACK beq @L3 lda (file),y and #<~_FPUSHBACK sta (file),y ; file->f_flags &= ~_FPUSHBACK; inx ; X = 1 @L3: stx pb ; Build the stackframe for read() ldy #_FILE::f_fd lda (file),y jsr pusha0 ; file->f_fd ldy #9 jsr pushwysp ; buf ; Stack is now: buf/size/count/file->fd/buf ; Calculate the number of bytes to read: count * size ldy #7 jsr pushwysp ; count ldy #9 jsr ldaxysp ; Get size jsr tosumulax ; count * size -> a/x ; Check if count is zero. cmp #0 bne @L4 cpx #0 bne @L4 ; Count is zero, drop the stack frame just built and return count jsr incsp4 ; Drop file->fd/buf jsr ldax0sp ; Get count jmp @L99 ; Bail out ; Check if we have a buffered char from ungetc @L4: ldy pb beq @L6 ; We have a buffered char from ungetc. Save the low byte from count pha ; Copy the buffer pointer into ptr1, and increment the pointer value passed ; to read() by one, so read() starts to store data at buf+1. ldy #0 lda (sp),y sta ptr1 add #1 sta (sp),y iny lda (sp),y sta ptr1+1 adc #0 sta (sp),y ; ptr1 = buf++; ; Get the buffered character and place it as first character into the read ; buffer. ldy #_FILE::f_pushback lda (file),y ldy #0 sta (ptr1),y ; *buf = file->f_pushback; ; Restore the low byte of count and decrement count by one. This may result ; in count being zero, so check for that. pla sub #1 bcs @L5 dex @L5: cmp #0 bne @L6 cpx #0 beq @L8 ; Call read(). This will leave the original 3 params on the stack @L6: jsr _read ; Check for errors in read cpx #$FF bne @L8 cmp #$FF bne @L8 ; Error in read. Set the stream error flag and bail out. errno has already ; been set by read(). On entry to label @L7, X must be zero. inx ; X = 0 lda #_FERROR @L7: ldy #_FILE::f_flags ; X must be zero here! ora (file),y sta (file),y txa ; a/x = 0 beq @L99 ; Return zero ; Read was ok, account for the pushed back character (if any). @L8: add pb bcc @L9 inx ; Check for end of file. @L9: cmp #0 ; Zero bytes read? bne @L10 cpx #0 bne @L10 ; Zero bytes read. Set the EOF flag lda #_FEOF bne @L7 ; Set flag and return zero ; Return the number of items successfully read. Since we've checked for ; bytes == 0 above, size cannot be zero here, so the division is safe. @L10: jsr pushax ; Push number of bytes read ldy #5 jsr ldaxysp ; Get size jsr tosudivax ; bytes / size -> a/x @L99: ldy save ; Restore zp register sty file ldy save+1 sty file+1 jmp incsp6 ; Drop params, return .endproc ; ------------------------------------------------------------------------ ; Data .bss save: .res 2 pb: .res 1