C - C ++在程序中嵌入Makefile

时间:2011-12-23 11:53:57

标签: c++ c xcode makefile

我正在尝试将这个'Makefile'嵌入到我的程序中,所以我想出了如何,但我面临一个小问题。如果我在xcode中使用命令行工具编程,我的代码可以工作,但如果我选择使用SDL库将其编程为应用程序,编译器会生成或导出(.o)文件..并且链接器无法找到它们< / p>

我得到的错误是: make:avr-gcc:没有这样的文件或目录 make: [main.o]错误1 *

右键单击.app并选择View Package Contents,其中包含可执行文件,但是.app dosent。

我的代码是:

char cmd[1040];
char cwd[1024];
char path[1024];
char path2[1024];
int status;
FILE *fp;

char *path = NULL;
    size_t sizes;
    path = getcwd(path, sizes);
    cout << path << endl;



    if (getcwd(cwd, sizeof(cwd)) != NULL)
    {
        snprintf(cmd, sizeof(cmd), "make -C \"%s\" flash", path);

        // i = system(cmd);


        /* Open the command for reading. */

        fp = popen(cmd, "r");

        if (fp == NULL) {

            cout << ("Failed to run command\n" );


        }


        /* Read the output a line at a time - output it. */ //  So we can use it later

        while (fgets(path2, sizeof(path2)-1, fp) != NULL) {

            printf("Info: %s\n", path2);
        }

        /* close */

        status = pclose(fp);


    }
  • Mac版编译器

http://www.obdev.at/products/crosspack/index.html

The makefile is

#########  AVR Project Makefile Template   #########
######                                        ######
######    Copyright (C) 2003-2005,Pat Deegan, ######
######            Psychogenic Inc             ######
######          All Rights Reserved           ######
######                                        ######
###### You are free to use this code as part  ######
###### of your own applications provided      ######
###### you keep this copyright notice intact  ######
###### and acknowledge its authorship with    ######
###### the words:                             ######
######                                        ######
###### "Contains software by Pat Deegan of    ######
###### Psychogenic Inc (www.psychogenic.com)" ######
######                                        ######
###### If you use it as part of a web site    ######
###### please include a link to our site,     ######
###### http://electrons.psychogenic.com  or   ######
###### http://www.psychogenic.com             ######
######                                        ######
####################################################


##### This Makefile will make compiling Atmel AVR 
##### micro controller projects simple with Linux 
##### or other Unix workstations and the AVR-GCC 
##### tools.
#####
##### It supports C, C++ and Assembly source files.
#####
##### Customize the values as indicated below and :
##### make
##### make disasm 
##### make stats 
##### make hex
##### make writeflash
##### make gdbinit
##### or make clean
#####
##### See the http://electrons.psychogenic.com/ 
##### website for detailed instructions


####################################################
#####                                          #####
#####              Configuration               #####
#####                                          #####
##### Customize the values in this section for #####
##### your project. MCU, PROJECTNAME and       #####
##### PRJSRC must be setup for all projects,   #####
##### the remaining variables are only         #####
##### relevant to those needing additional     #####
##### include dirs or libraries and those      #####
##### who wish to use the avrdude programmer   #####
#####                                          #####
##### See http://electrons.psychogenic.com/    #####
##### for further details.                     #####
#####                                          #####
####################################################


#####         Target Specific Details          #####
#####     Customize these for your project     #####

# Name of target controller 
# (e.g. 'at90s8515', see the available avr-gcc mmcu 
# options for possible values)
MCU=atmega8

# id to use with programmer
# default: PROGRAMMER_MCU=$(MCU)
# In case the programer used, e.g avrdude, doesn't
# accept the same MCU name as avr-gcc (for example
# for ATmega8s, avr-gcc expects 'atmega8' and 
# avrdude requires 'm8')
PROGRAMMER_MCU=m8

# Name of our project
# (use a single word, e.g. 'myproject')
PROJECTNAME=myproject

# Source files
# List C/C++/Assembly source files:
# (list all files to compile, e.g. 'a.c b.cpp as.S'):
# Use .cc, .cpp or .C suffix for C++ files, use .S 
# (NOT .s !!!) for assembly source code files.
PRJSRC=main.c myclass.cpp lowlevelstuff.S

# additional includes (e.g. -I/path/to/mydir)
INC=-I/path/to/include

# libraries to link in (e.g. -lmylib)
LIBS=

# Optimization level, 
# use s (size opt), 1, 2, 3 or 0 (off)
OPTLEVEL=s


#####      AVR Dude 'writeflash' options       #####
#####  If you are using the avrdude program
#####  (http://www.bsdhome.com/avrdude/) to write
#####  to the MCU, you can set the following config
#####  options and use 'make writeflash' to program
#####  the device.


# programmer id--check the avrdude for complete list
# of available opts.  These should include stk500,
# avr910, avrisp, bsd, pony and more.  Set this to
# one of the valid "-c PROGRAMMER-ID" values 
# described in the avrdude info page.
# 
AVRDUDE_PROGRAMMERID=stk500

# port--serial or parallel port to which your 
# hardware programmer is attached
#
AVRDUDE_PORT=/dev/ttyS1


####################################################
#####                Config Done               #####
#####                                          #####
##### You shouldn't need to edit anything      #####
##### below to use the makefile but may wish   #####
##### to override a few of the flags           #####
##### nonetheless                              #####
#####                                          #####
####################################################


##### Flags ####

# HEXFORMAT -- format for .hex file output
HEXFORMAT=ihex

# compiler
CFLAGS=-I. $(INC) -g -mmcu=$(MCU) -O$(OPTLEVEL) \
    -fpack-struct -fshort-enums             \
    -funsigned-bitfields -funsigned-char    \
    -Wall -Wstrict-prototypes               \
    -Wa,-ahlms=$(firstword                  \
    $(filter %.lst, $(<:.c=.lst)))

# c++ specific flags
CPPFLAGS=-fno-exceptions               \
    -Wa,-ahlms=$(firstword         \
    $(filter %.lst, $(<:.cpp=.lst))\
    $(filter %.lst, $(<:.cc=.lst)) \
    $(filter %.lst, $(<:.C=.lst)))

# assembler
ASMFLAGS =-I. $(INC) -mmcu=$(MCU)        \
    -x assembler-with-cpp            \
    -Wa,-gstabs,-ahlms=$(firstword   \
        $(<:.S=.lst) $(<.s=.lst))


# linker
LDFLAGS=-Wl,-Map,$(TRG).map -mmcu=$(MCU) \
    -lm $(LIBS)

##### executables ####
CC=avr-gcc
OBJCOPY=avr-objcopy
OBJDUMP=avr-objdump
SIZE=avr-size
AVRDUDE=avrdude
REMOVE=rm -f

##### automatic target names ####
TRG=$(PROJECTNAME).out
DUMPTRG=$(PROJECTNAME).s

HEXROMTRG=$(PROJECTNAME).hex 
HEXTRG=$(HEXROMTRG) $(PROJECTNAME).ee.hex
GDBINITFILE=gdbinit-$(PROJECTNAME)

# Define all object files.

# Start by splitting source files by type
#  C++
CPPFILES=$(filter %.cpp, $(PRJSRC))
CCFILES=$(filter %.cc, $(PRJSRC))
BIGCFILES=$(filter %.C, $(PRJSRC))
#  C
CFILES=$(filter %.c, $(PRJSRC))
#  Assembly
ASMFILES=$(filter %.S, $(PRJSRC))


# List all object files we need to create
OBJDEPS=$(CFILES:.c=.o)    \
    $(CPPFILES:.cpp=.o)\
    $(BIGCFILES:.C=.o) \
    $(CCFILES:.cc=.o)  \
    $(ASMFILES:.S=.o)

# Define all lst files.
LST=$(filter %.lst, $(OBJDEPS:.o=.lst))

# All the possible generated assembly 
# files (.s files)
GENASMFILES=$(filter %.s, $(OBJDEPS:.o=.s)) 


.SUFFIXES : .c .cc .cpp .C .o .out .s .S \
    .hex .ee.hex .h .hh .hpp


.PHONY: writeflash clean stats gdbinit stats

# Make targets:
# all, disasm, stats, hex, writeflash/install, clean
all: $(TRG)

disasm: $(DUMPTRG) stats

stats: $(TRG)
    $(OBJDUMP) -h $(TRG)
    $(SIZE) $(TRG) 

hex: $(HEXTRG)


writeflash: hex
    $(AVRDUDE) -c $(AVRDUDE_PROGRAMMERID)   \
     -p $(PROGRAMMER_MCU) -P $(AVRDUDE_PORT) -e        \
     -U flash:w:$(HEXROMTRG)

install: writeflash

$(DUMPTRG): $(TRG) 
    $(OBJDUMP) -S  $< > $@


$(TRG): $(OBJDEPS) 
    $(CC) $(LDFLAGS) -o $(TRG) $(OBJDEPS)


#### Generating assembly ####
# asm from C
%.s: %.c
    $(CC) -S $(CFLAGS) $< -o $@

# asm from (hand coded) asm
%.s: %.S
    $(CC) -S $(ASMFLAGS) $< > $@


# asm from C++
.cpp.s .cc.s .C.s :
    $(CC) -S $(CFLAGS) $(CPPFLAGS) $< -o $@



#### Generating object files ####
# object from C
.c.o: 
    $(CC) $(CFLAGS) -c $< -o $@


# object from C++ (.cc, .cpp, .C files)
.cc.o .cpp.o .C.o :
    $(CC) $(CFLAGS) $(CPPFLAGS) -c $< -o $@

# object from asm
.S.o :
    $(CC) $(ASMFLAGS) -c $< -o $@


#### Generating hex files ####
# hex files from elf
#####  Generating a gdb initialisation file    #####
.out.hex:
    $(OBJCOPY) -j .text                    \
        -j .data                       \
        -O $(HEXFORMAT) $< $@

.out.ee.hex:
    $(OBJCOPY) -j .eeprom                  \
        --change-section-lma .eeprom=0 \
        -O $(HEXFORMAT) $< $@


#####  Generating a gdb initialisation file    #####
##### Use by launching simulavr and avr-gdb:   #####
#####   avr-gdb -x gdbinit-myproject           #####
gdbinit: $(GDBINITFILE)

$(GDBINITFILE): $(TRG)
    @echo "file $(TRG)" > $(GDBINITFILE)

    @echo "target remote localhost:1212" \
                        >> $(GDBINITFILE)

    @echo "load"        >> $(GDBINITFILE) 
    @echo "break main"  >> $(GDBINITFILE)
    @echo "continue"    >> $(GDBINITFILE)
    @echo
    @echo "Use 'avr-gdb -x $(GDBINITFILE)'"


#### Cleanup ####
clean:
    $(REMOVE) $(TRG) $(TRG).map $(DUMPTRG)
    $(REMOVE) $(OBJDEPS)
    $(REMOVE) $(LST) $(GDBINITFILE)
    $(REMOVE) $(GENASMFILES)
    $(REMOVE) $(HEXTRG)



#####                    EOF                   #####

1 个答案:

答案 0 :(得分:0)

调试这种错误的一种可能方法是通过某种方式将一些额外的标志传递给make,例如。

    const char *makeflags = getenv("MYMAKEFLAGS");
    if (makeflags) 
       snprintf(cmd, sizeof(cmd), "make -C \"%s\" %s flash", path, makeflags);
    else
       snprintf(cmd, sizeof(cmd), "make -C \"%s\" flash", path);

然后你(假设你的make是GNU make)可以通过设置环境变量调试你的东西

    export MYMAKEFLAGS=--debug=b

我会使用patsubst GNU make函数来计算你的OBJDEPS,它应该是OBJFILES,例如:

OBJFILES= \
       $(patsubst %.cc, %.o, $(CCFILES)) \
       $(patsubst %c, %.o, $(CFILES)) 
#etc