Ein Roboter mit bürstenlosem Antrieb, differenzial und NRF24L01 Funk. Großflächig gebaut um ein großes Solarpanel aufzunehmen. https://gitlab.informatik.hs-fulda.de/fdai5253/roboter
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

182 lines
3.7 KiB

MCU = cortex-m3 ;
CHIP = STM32F103ZE ;
BOARD = maple_native ;
#CHIP = at91sam3u4 ;
#BOARD = sam3u-ek ;
if ! $(TOOLSET)
{
TOOLSET = devkit ;
Echo "Assuming TOOLSET=devkit" ;
}
if $(TOOLSET) = yagarto
{
TOOLS_PATH = ~/Source/yagarto-4.6.2/bin ;
TOOLS_ARCH = arm-none-eabi- ;
}
if $(TOOLSET) = yagarto-install
{
TOOLS_PATH = ~/Source/yagarto/install/bin ;
TOOLS_ARCH = arm-none-eabi- ;
}
else if $(TOOLSET) = devkit
{
TOOLS_PATH = /opt/devkitARM/bin ;
TOOLS_ARCH = arm-eabi- ;
}
else if $(TOOLSET) = maple
{
TOOLS_PATH = /opt/Maple/Resources/Java/hardware/tools/arm/bin ;
TOOLS_ARCH = arm-none-eabi- ;
}
else if $(TOOLSET) = ports
{
TOOLS_PATH = /opt/local/bin ;
TOOLS_ARCH = arm-none-eabi- ;
}
CC = $(TOOLS_PATH)/$(TOOLS_ARCH)gcc ;
C++ = $(TOOLS_PATH)/$(TOOLS_ARCH)g++ ;
AS = $(TOOLS_PATH)/$(TOOLS_ARCH)gcc -c ;
LINK = $(TOOLS_PATH)/$(TOOLS_ARCH)g++ ;
OBJCOPY = $(TOOLS_PATH)/$(TOOLS_ARCH)objcopy ;
DFU = dfu-util ;
DEFINES += VECT_TAB_FLASH BOARD_$(BOARD) MCU_$(CHIP) ERROR_LED_PORT=GPIOC ERROR_LED_PIN=15 STM32_HIGH_DENSITY MAPLE_IDE ;
OPTIM = -Os ;
MFLAGS = cpu=$(MCU) thumb arch=armv7-m ;
CCFLAGS = -Wall -m$(MFLAGS) -g -nostdlib -ffunction-sections -fdata-sections -Wl,--gc-sections ;
C++FLAGS = $(CCFLAGS) -fno-rtti -fno-exceptions ;
LINKFLAGS += -m$(MFLAGS) -Xlinker --gc-sections ;
DFUFLAGS = -a1 -d 0x1eaf:0x0003 -R ;
MAPLE_DIR = $(HOME)/Source/SAM3U/libmaple ;
MAPLE_LIBS = Servo LiquidCrystal Wire FreeRTOS ;
MAPLE_SUBDIRS = wirish wirish/comm wirish/boards libmaple libmaple/usb libmaple/usb/usb_lib ;
SKETCH_DIR = $(HOME)/Source/Arduino ;
SKETCH_LIBS = RF24 ;
MODULE_DIRS = . $(MAPLE_DIR)/$(MAPLE_SUBDIRS) $(MAPLE_DIR)/libraries/$(MAPLE_LIBS) $(SKETCH_DIR)/libraries/$(SKETCH_LIBS) ;
HDRS = $(MODULE_DIRS) ;
LOCATE_TARGET = out/$(TOOLSET) ;
LOCATE_SOURCE = $(LOCATE_TARGET) ;
rule Pde
{
Depends $(<) : $(>) ;
MakeLocate $(<) : $(LOCATE_SOURCE) ;
Clean clean : $(<) ;
}
if ( $(ARDUINO_VERSION) < 100 )
{
ARDUINO_H = WProgram.h ;
}
else
{
ARDUINO_H = Arduino.h ;
}
actions Pde
{
echo "#include <$(ARDUINO_H)>" > $(<)
echo "#line 1 \"$(>)\"" >> $(<)
cat $(>) >> $(<)
}
rule C++Pde
{
local _CPP = $(>:B).cpp ;
Pde $(_CPP) : $(>) ;
C++ $(<) : $(_CPP) ;
}
rule Hex
{
Depends $(<) : $(>) ;
MakeLocate $(<) : $(LOCATE_TARGET) ;
Depends hex : $(<) ;
Clean clean : $(<) ;
}
actions Hex
{
$(OBJCOPY) -O ihex $(>) $(<)
}
rule Binary
{
Depends $(<) : $(>) ;
MakeLocate $(<) : $(LOCATE_TARGET) ;
Depends binary : $(<) ;
Clean clean : $(<) ;
}
actions Binary
{
$(OBJCOPY) -O binary $(>) $(<)
}
rule UserObject
{
switch $(>:S)
{
case .S : As $(<) : $(>) ;
case .ino : C++Pde $(<) : $(>) ;
case .pde : C++Pde $(<) : $(>) ;
}
}
rule Upload
{
Depends up : $(<) ;
NotFile up ;
Always $(<) ;
Always up ;
}
actions Upload
{
$(DFU) $(DFUFLAGS) -D $(<)
}
# Override base objects rule, so all output can go in the output dir
rule Objects
{
local _i ;
for _i in [ FGristFiles $(<) ]
{
local _b = $(_i:B)$(SUFOBJ) ;
local _o = $(_b:G=$(SOURCE_GRIST:E)) ;
Object $(_o) : $(_i) ;
Depends obj : $(_o) ;
}
}
# Override base main rule, so all output can go in the output dir
rule Main
{
MainFromObjects $(<) : $(>:B)$(SUFOBJ) ;
Objects $(>) ;
}
# Modules
MODULES = [ GLOB $(MODULE_DIRS) : *.pde *.c *.cpp *.S ] ;
# Main output executable
MAIN = $(PWD:B).elf ;
# Linker script
LINK_DIR = $(MAPLE_DIR)/support/ld ;
LINKSCRIPT = $(LINK_DIR)/$(BOARD)/flash.ld ;
# Bring in the map and link script
LINKFLAGS += -Wl,-Map=$(LOCATE_TARGET)/$(MAIN:B).map -T$(LINKSCRIPT) -L$(LINK_DIR) ;
Main $(MAIN) : $(MODULES) ;
Binary $(MAIN:B).bin : $(MAIN) ;
Upload $(MAIN:B).bin ;