define build_target
ifneq ($$($(1)_CROSS),)
-#use embedded specific map flags
-$(1)_MAP_FLAGS = $$(MAP_FLAGS_EMB)
-#In embedded we need s19, hex and bin
-$$(OUTDIR)/$(1).tgt : $$(OUTDIR)/$(1).s19 $$(OUTDIR)/$(1).hex $$(OUTDIR)/$(1).bin
+ #use embedded specific map flags
+ $(1)_MAP_FLAGS = $$(MAP_FLAGS_EMB)
+ #In embedded we need s19, hex and bin
+ $$(OUTDIR)/$(1).tgt : $$(OUTDIR)/$(1).s19 $$(OUTDIR)/$(1).hex $$(OUTDIR)/$(1).bin
else
-#On Darwin architecture the assembly doesn't link correctly if this flag is set.
-ifeq ($(shell uname | grep -c "Darwin"),1)
-LIST_FLAGS := ""
-MAP_FLAGS := ""
-LDFLAGS := ""
-endif
-#use hosted specific map flags
-$(1)_MAP_FLAGS = $$(MAP_FLAGS_HOST)
-#in hosted application we need only executable file.
-$$(OUTDIR)/$(1).tgt : $$(OUTDIR)/$(1)
+ #On Darwin architecture the assembly doesn't link correctly if this flag is set.
+ ifeq ($(shell uname | grep -c "Darwin"),1)
+ LIST_FLAGS := ""
+ MAP_FLAGS := ""
+ LDFLAGS := ""
+ endif
+ #use hosted specific map flags
+ $(1)_MAP_FLAGS = $$(MAP_FLAGS_HOST)
+ #in hosted application we need only executable file.
+ $$(OUTDIR)/$(1).tgt : $$(OUTDIR)/$(1)
endif
$(1)_LDFLAGS += $$($(1)_MAP_FLAGS)
# but there are different options on how pass
# it to the compiler.
ifneq ($$(strip $$($(1)_MCU)),)
-$(1)_MCPU = -mmcu=$$($(1)_MCU)
+ $(1)_MCPU = -mmcu=$$($(1)_MCU)
endif
ifneq ($$(strip $$($(1)_CPU)),)
-$(1)_MCPU = -mcpu=$$($(1)_CPU)
+ $(1)_MCPU = -mcpu=$$($(1)_CPU)
endif
# If a CPU is specified add to
# project specific flags.
ifneq ($$($(1)_MCPU),)
-$(1)_CFLAGS += $$($(1)_MCPU)
-$(1)_CXXFLAGS += $$($(1)_MCPU)
-$(1)_ASFLAGS += $$($(1)_MCPU)
-$(1)_CPPAFLAGS += $$($(1)_MCPU)
-$(1)_LDFLAGS += $$($(1)_MCPU)
+ $(1)_CFLAGS += $$($(1)_MCPU)
+ $(1)_CXXFLAGS += $$($(1)_MCPU)
+ $(1)_ASFLAGS += $$($(1)_MCPU)
+ $(1)_CPPAFLAGS += $$($(1)_MCPU)
+ $(1)_LDFLAGS += $$($(1)_MCPU)
endif
ifneq ($$(strip $$($(1)_LDSCRIPT)),)
-$(1)_LDFLAGS += -Wl,-T$$($(1)_LDSCRIPT)
+ $(1)_LDFLAGS += -Wl,-T$$($(1)_LDSCRIPT)
endif
# Debug stuff
ifeq ($$($(1)_DEBUG),1)
- # AVR is an harvard processor
- # and needs debug module
- # to be compiled in program memory
- ifeq ($$(findstring avr, $$($(1)_CROSS)),avr)
- $(1)_DEBUGSRC = $(1)_PCSRC
- else
- $(1)_DEBUGSRC = $(1)_CSRC
- endif
-
- $$($(1)_DEBUGSRC) += bertos/drv/kdebug.c
-
- # Also add formatwr.c (printf) if not already present
- ifneq ($$(findstring formatwr.c, $$($$($(1)_DEBUGSRC))),formatwr.c)
- $$($(1)_DEBUGSRC) += bertos/mware/formatwr.c
- endif
-
- $(1)_CFLAGS += -D_DEBUG
- $(1)_CXXFLAGS += -D_DEBUG
+ # AVR is an harvard processor
+ # and needs debug module
+ # to be compiled in program memory
+ ifeq ($$(findstring avr, $$($(1)_CROSS)),avr)
+ $(1)_DEBUGSRC = $(1)_PCSRC
+ else
+ $(1)_DEBUGSRC = $(1)_CSRC
+ endif
+
+ $$($(1)_DEBUGSRC) += bertos/drv/kdebug.c
+
+ # Also add formatwr.c (printf) if not already present
+ ifneq ($$(findstring formatwr.c, $$($$($(1)_DEBUGSRC))),formatwr.c)
+ $$($(1)_DEBUGSRC) += bertos/mware/formatwr.c
+ endif
+
+ $(1)_CFLAGS += -D_DEBUG
+ $(1)_CXXFLAGS += -D_DEBUG
endif
$(1)_CC = $$($(1)_CROSS)$$(CC)
# would whine if we passed it C-only flags. Checking for the presence of
# "++" in the name is a kludge that seems to work mostly.
ifeq (++,$$(findstring ++,$$($(1)_CC)))
- REAL_CFLAGS = $$(CXXFLAGS)
+ REAL_CFLAGS = $$(CXXFLAGS)
else
- REAL_CFLAGS = $$(CFLAGS)
+ REAL_CFLAGS = $$(CFLAGS)
endif
# Compile: instructions to create assembler and/or object files from C source
projects / bertos.git / commitdiff